Traveling to SESYNC? This short video answers some common travel- & reimbursement-related questions.
Allen Carroll, ArcGIS Online Content Program Manager at Esri.
The first seminar in our fall series is dedicated to the critical intersection of socio-environmental synthesis and how to tell data-driven stories.
Morgan Grove, SESYNC's new Social Scientist in Residence
by KATE WEISS
Computational Research Assistant
The National Socio-Environmental Synthesis Center (SESYNC) is pleased to welcome Dr. Morgan Grove as our new Social Scientist in Residence!
The National Socio-Environmental Synthesis Center (SESYNC) is currently accepting applications for a variety of career opportunities, including those in science and policy and data science. Please see below for a full list of the job opportunities for which we are currently accepting applications:
Deadline: Sep 30, 2016
The National Socio-Environmental Synthesis Center (SESYNC) requests proposals for collaborative and interdisciplinary team-based research projects under two programs: Pursuits and Workshops.
Researchers meet with pastoralists in the Mount Kenya region. Photo by Matteo Dell'Angelo
By Kate Weiss, The National Socio–Environmental Synthesis Center (SESYNC)
Environmental social scientist Jampel Dell’Angelo and filmmaker Matteo Dell’Angelo recently co-directed a documentary film of Elinor Ostrom’s last research project. Working Togetherdocuments the challenges and successes of interdisciplinary research on smallholder climate adaptation and community water governance in semi-arid areas. The study found that involvement of all the river basin actors in a participatory way reduced social conflicts while providing more sustainable water allocation in the region. The film features water competition and governance in Kenya, which is a country that is innovative among developing countries for participatory water governance reforms.
A postdoctoral research fellow at the National Socio-Environmental Synthesis Center (SESYNC), Jampel Dell’Angelo conducted over nine months of fieldwork on Mount Kenya as postdoctoral researcher at the Ostrom Workshop and coordinator of an interdisciplinary team on the U.S. National Science Foundation research project awarded to Elinor Ostrom. The film chronicles Elinor Ostrom’s last research project and can be found here: http://videos4water.org/.
The Dell’Angelo brothers worked on the project alongside an interdisciplinary science team that included social science researchers from Indiana University and hydrologists from Princeton University.
Jampel Dell’Angelo has a passion for science and scholarship that has the potential to inform decisions and improve public policies. He believes multimedia can provide a powerful and inspiring means for scientific storytelling to accomplish those goals. “It’s not often science makes an effort to communicate in a way that is entertaining and for larger audiences, and this documentary thanks to the involvement of my brother Matteo, makes that effort,” he says. “The film also documents the value of critical efforts to address emerging problems, such as the issues around climate change adaptation and water resources in Mt. Kenya, through real interdisciplinary research.”
Ostrom was the only woman in history to win a Nobel Prize in economics for her work on community natural resource management. Ostrom unfortunately passed away before her research team got to the field; but she was the principal investigator who received the grant from the National Science Foundation research featured in the video.http://newsinfo.iu.edu/news/page/normal/19578.html/
I had the opportunity to catch up with Jampel to discuss the documentary, the research conducted in Mt. Kenya, and the implications of this research.
In Working Together, Jampel Dell’Angelo and other researchers provide a glimpse into what happens when two teams of researchers combine efforts to gather important information on both human and natural systems. Here they learn about the water resource needs of villages and pastoralists in the Mount Kenya region. Photo by Matteo Dell’Angelo.
Q: In Working Together, you provide a glimpse into what happens when two teams of researchers work together to gather important information on both human and natural systems. With so much happening on the research end, how did you begin filming this as a research narrative?
Dell’Angelo: It began both as a desire to keep Elinor Ostrom’s legacy alive as well as a response to how, when I first arrived in Kenya, I was immediately touched with how much people were affected by and involved in managing water at a local level and how this really affected their lives. And all of this was happening in a scenery that was incredible and that had enormous ecological, cultural, and social variety. It was evident that this research was incredibly interdisciplinary and needed to account for an enormous amount of complexity. So, I thought, “Well, this is something that should be documented.”
Q: What were the main findings of the research?
Dell’Angelo: I think that one of the most interesting things we observed was that this system of community-water governance has a real impact on people and on how resources are allocated. We were working with 25 communities along five different river basins that had experienced increasingly elevated conflicts over water resources. This was really because the downstream users didn’t have a voice to articulate their discontent and frustration when they felt the up-stream users were withdrawing too much water. The transition over to a community-based water governance drastically reduced the level of conflicts between different users.
In terms of the main bio-physical findings, we found that, with climate change, what’s happening in the area isn’t that there’s less rainfall, but that the distribution of rain is changing. This is important, because there is a big difference between the same amount of rain falling in one month versus in six months. This has significant implications in terms of agricultural production and agricultural decision making. This raises questions of how people will adapt to these various changes in the future.
Q: Why is it important for both researchers and decision-makers to understand the human dynamics and climate impacts of Mt. Kenya’s water governance?
Dell’Angelo: Kenya is a little bit of a laboratory in terms of community irrigation schemes and community water management—they are pioneers in this new system of community water governance that’s also hugely affected by climate change, so they are on the front-line of new systems of governance in the face of climate change. Understanding what is happening in this area is hugely important in terms of generalizing knowledge for other areas in developing countries that face similar challenges.
Q: What do you want people to take away from this video?
Dell’Angelo: I hope people take away from this documentary a better understanding of the complexity and importance of interdisciplinary research when combined with local people and local knowledge. I think it is both a valuable resource for those interested in natural resources, sustainability, and development as well as for those who might be facing similar problems in their own communities. I hope this can be an educational and practical tool as well as an insight into a reality that many communities across the world face.
The National Socio-Environmental Synthesis Center, funded through an award to the University of Maryland from the National Science Foundation, is a research center dedicated to accelerating data-driven scientific discovery at the interface of human and ecological systems. Visit us online at www.sesync.org and follow us on Twitter @SESYNC.
Sunshine Menezes, member of SESYNC's Translational Ecology pursuit team.
Ten communication tips for translational scientists
By Sunshine Menezes
This blog post originally appeared in the Integration and Implementation Insights blog (http://I2Insights.org) as “TEN COMMUNICATION TIPS FOR TRANSLATIONAL SCIENTISTS," and is reposted with the author’s permission.
As someone who works with scientists, journalists, advocates, regulators, and other types of communication practitioners, I see the need for translational scientists who can navigate productive, start-to-finish collaborations between such groups on a daily basis.
This translation involves the use of new, more integrated approaches toward scientific work to confront wicked environmental problems society faces.
In spite of this need, cross-boundary communication poses a major stumbling block for many researchers. Science communication requires engagement with potential beneficiaries, not just a one-way transfer of information.
Effective communication is a key component of translational science, requiring both theoretical knowledge and practical skills.
To that end, I offer ten tips for translational scientists seeking more effective communication:
1.) Stop referring to the “general public”
There is no such thing. Each of us brings a different suite of experiences, biases, and values to how we view the world. A translational scientist must recognize this, and respect that these diverse perspectives occur among the beneficiaries, stakeholders, and other scientists with whom she collaborates.
2. ) Start a conversation
Academics are very good at talking to one another, but listening is a critical aspect of integrative, cross-boundary thinking. Good listeners can help others open up, providing new information for the discussion and building trust along the way.
3.) Accept that trust only goes so far
In spite of the previous point, it is possible that you might not be the optimal translator for a given interaction. Depending on a person’s background and values, he or she is likely to trust some people more than others. While your Ph.D. might open doors to a new academic collaborator, it could close the door to a person who entered the workforce after graduating high school. Or not. It is important to consider these biases and include team members who can build a rapport with all the necessary stakeholders.
4.) Remember your – or your friend’s – love for Lego
I was forever changed by my interaction with a sculptor who said she learned how to understand the world by playing with Lego. She meant that some of us learn by reading, some by looking at two-dimensional images, and others by experiencing three-dimensional representations. These different learning styles cannot be undervalued when attempting to collaborate across disciplines and boundaries.
5.) Feel all the feelings
Scientists are trained to view their work objectively, and to present themselves as impartial observers. But remember that your humanity, your expression of emotion, can sometimes strengthen collaborations, especially with stakeholders who exist outside of the ivory tower.
6.) Embrace change
Let’s face it: wicked problems are constantly evolving. A translational scientist must adapt and be willing to move past approaches that no longer suit the problem.
7.) Recognize differential power dynamics
Many levels of power dynamics are at play when investigating/resolving complex environmental challenges. Identify these dynamics and address them in your interactions.
8.) Explain uncertainties
Researchers accept scientific uncertainty and work within its constraints, but those outside of the scientific community view uncertainty as a weakness, at best, or ineptitude, at worst. You can bridge this gap by noting consensus where it exists, describing the uncertainties associated with your research, and explaining how scientific uncertainty does not necessarily preclude policy action.
9.) Practice your writing skills
Academics tend to undervalue brevity. Be an example to your colleagues and collaborators by practicing this skill. Make time for regular writing and seek feedback.
10.) Become a negotiator
In the political sphere, compromise is often viewed negatively. But when it comes to solving complex environmental problems, compromise is unavoidable. By honing negotiation skills, you can foster discussions, and possibly solutions, that might otherwise be out of reach.
What would you add to the list? Are you teaching these skills in your graduate courses? I look forward to hearing your thoughts about how to better incorporate these skills and related knowledge in graduate education.
Biography: Sunshine Menezes is executive director of the Metcalf Institute for Marine & Environmental Reporting at the University of Rhode Island Graduate School of Oceanography (URI GSO) and associate director for communication in the URI GSO Office of Marine Programs. She also co-leads the Engagement Team for the Deep Carbon Observatory, a global community of multi-disciplinary scientists unlocking the inner secrets of Earth through investigations into life, energy, and the fundamentally unique chemistry of carbon. Prior to focusing her communication efforts on improving news coverage of the environment, she developed national and state-level environmental policy, first as a Dean John Knauss National Sea Grant Marine Policy Fellow with Congressman Frank Pallone, Jr. and later as part of a multidisciplinary team at the URI Coastal Resources Center and Rhode Island Sea Grant. She is a member of the Translational Ecology pursuit, funded by the National Socio-Environmental Synthesis Center (SESYNC).
|Feb 25 / SESYNC’s Public Health Immersion Workshop: Interdisciplinary Themes of Resilience and Social Determinants of Health|
|Feb 21 / Winter Weather Whiplash: Examining Its Elements, Events, and Effects|
|Feb 20 / SESYNC Postdoc Develops New Course for Using Google Earth Engine in S-E Synthesis|
|Feb 7 / SESYNC Announces Five Newly Supported Graduate Projects|
|Mar 2 / Pursuit: Urban Agriculture Socio-Environmental Synthesis: An Integration of the Ecosystem Services and Livelihoods Approaches to Evaluate the Multifaceted Role of Urban Agriculture in Contemporary Latin America|
|Mar 4 / Planning Workshop: Counter Climates: Petro-Infrastructure and Indigenous Land, Water, and Atmosphere Protection in Canada and the American Midwest|
|Mar 9 / Pursuit: The Death and Life of Biodiversity: Modeling Extinction and Resilience on Islands|
|Mar 10 / Immersion Workshop: Environmental Policy|