February 21 – Vanessa Raymond and Kathryn Meyer

Talking about things is hard: Creating common ground with your audience
Vanessa Raymond, NCEAS

EPA’s Great Lakes Long-term Monitoring Programs
Kathryn Meyer, NCEAS

Vanessa Raymond – Talking about things is hard: Creating common ground with your audience
Explaining research or technology to the uninitiated remains a
challenge. When speaker and audience don’t share the same worldview,
the same context, the same acronyms, or the same lexicon, how do you
achieve a shared understanding? How do we create a common ground? As a
political scientist who often finds herself in a room full of ‘hard’
scientists or technologically-minded folks, how can I effectively
exchange information and ideas?

At this roundtable, I’ll share some methods I have used to explain
concepts and give context to audiences who are not in the same field
as me. These include a comicstrip I created for my M.A. defense to
describe the process of working on my thesis, and a zine I wrote to
talk about open data.

Vanessa comes to the Arctic Data Center from the Geographic
Information Network of Alaska, a research to operations (R2O) group
specializing in satellite imagery processing and distribution at the
University of Alaska Fairbanks. She has an M.A. in Arctic Governance
with a focus on Arctic Security issues, and a BA in Cultural Studies.
She is also a Returned Peace Corps Volunteer (Bulgaria 2009 – 2012).
Vanessa is excited to blend her passion for Arctic research support
and open data / open science at the Arctic Data Center in the role of
Outreach and Training Coordinator.

Kathryn Meyer – EPA’s Great Lakes Long-term Monitoring Programs
Did you know the EPA has a research vessel that monitors all five
Great Lakes? It’s called the R/V Lake Guardian and it’s been sampling
water, aquatic life, sediment and air in the region for nearly 30
years. In addition to a storied shipboard community, these long-term
monitoring programs have generated a lot of data. I’ll share a mix of
ship life and data trends, specifically particulate nutrient data
trends, from the Great Lakes. Your tax dollars help fund the
Guardian’s work, so it’s probably time you knew about it, too.

Kathryn comes to NCEAS from Chicago, IL, where she worked at the U.S.
EPA Great Lakes National Program Office as an ORISE fellow. At the EPA
she worked on a variety of projects ranging from data analysis and
annual reports to website updates. The most unique part of the job was
getting to travel across all the Great Lakes on sampling surveys
aboard the R/V Lake Guardian. Kathryn received her M.S. from the
University of Michigan School of Natural Resources and Environment,
where her focus was on aquatic ecotoxicology; and her B.S. from
American University in DC.

February 14 – Inside Peek: LTER Network Website

You all know that the LTER Network Communications Office is based at NCEAS, but maybe you don’t really know what the LTER Network is. And when you wandered onto the old web site, you thought you’d stumbled into a dusty archive. The LTER NCO has launched the Network’s new website, but it is definitely still a work-in-progress. We would love to draw on the insight and ideas of NCEAS scientists: the exact audience we care most about (that is, scientists not currently associated with the LTER).
The roundtable will be interactive, with a very brief presentations about the audiences, constraints goals, and process of developing the website, followed by a look at the backend and a discussion of what works well and what could be improved. We will discuss some of the challenges encountered as well as short- and long-term solutions. It’s your chance to help solve a challenging sci-comm puzzle and learn a bit more about one of NCEAS’ major programs. To facilitate the fun, please bring a computer and meet in the Paseo Room.

Speaker: Marty Downs
Marty is the Deputy Director for the Long Term Ecological Research Network Communications Office (LTER NCO), based at NCEAS. The NSF-funded LTER Network includes 25 sites and engages thousands of researchers and students to study ecological processes operating on long time scales and large spatial scales. Marty joined the newly-created NCO in 2016 to enhance awareness and understanding of LTER research within the LTER community and across diverse constituencies and stakeholders.

January 31 – The future of NCEAS: where we are at and where we are headed

As a bit of a ‘state of the center’ talk, I will give an overview of our activities and successes from the past year, upcoming activities and plans for the coming year, and the vision and goals for the next five years and beyond.

Speaker: Ben Halpern

Ben is the Director of NCEAS and a Professor at the Bren School of Environmental Science & Management at UCSB. He is the lead scientist for the Ocean Health Index project as well as a Chair in Marine Conservation at Imperial College London as part of the Grand Challenges in Ecosystems and the Environment program. He is also a Senior Fellow at the World Conservation Monitoring Centre, a part of the United Nations Environment Programme. Much of his research addresses Coastal and Marine Spatial Planning (CMSP), including cumulative impact and ecosystem service tradeoff assessments.

January 24 – Going Further “Towards Understanding Marine Biological Impacts of Climate Change”: developing from the NCEAS workshop experience.

This talk will briefly cover our original meta-analysis at NCEAS, and the inspiration we got from trying to develop simple expectations for climate change effects on geographical range shifts and changes in seasonal timing of ecological events. Rates of spatial shifts in climate, mostly based on isotherms, have proved useful first order predictors of likely rates of distribution shifts.  We have extended this approach to forecast diversity losses under warming. A major challenge is to test or validate the predicted effects of climate change on ecosystems from spatial shifts in climate. We have recently been exploring the use of community-level measures of the relative dominance of warm and cold water species for this purpose, and gaining insights into the responsiveness of communities to warming in systems across the globe.

Speaker: Mike Burrows

About Mike: I’m a Professor at the Scottish Association for Marine Science in Oban in western Scotland, and have been there since the early 1990s. My research interests range from behavioural ecology, through trophic interactions in communities, spatial patterns in community structure in relation to waves and phytoplankton, to long-term change in populations and communities – mostly on intertidal and shallow water rock and sand.

December 6 – Whats for lunch? A lunchtime exploration of juvenile salmon diets in the Kachemak Bay area

Watershed ecology is all about connections, and one of the most important ways we measure track connections is through the food web.  At KBNERR’s watershed research, we explore how landscapes processes support juvenile salmon in many different parts of the watershed, from headwater streams to estuaries. Those studies often involve learning what the salmon are eating, and this presentation will showcase several examples of what we’ve learned. For this talk, we’re going to take a look at juvenile salmon diets from several different locales. We’ll begin in the ‘headwater stream district’ – the uppermost branches of the watershed. These are very small streams that are very tightly connected to the surrounding landscape. Downstream areas receive flow from upstream sources, but headwaters are the beginning so all of the food in headwaters must be generated from nearby sources.  Next we’ll travel all the way down to the other end of the watershed, where the rivers meet the sea-the estuaries. Here we have the influence of the ocean tides and the freshwater watershed- we’ll call this ‘fusion cuisine’.  We’ll also take a look at imported foods and junk food in in juvenile salmon diets in our area.

Speaker: Coowe Walker

Coowe is the Program Watershed Ecologist and acting Research Coordinator for the Kachemak Bay National Estuarine Research Reserve (KBNERR), located in Homer, Alaska. She works collaboratively with colleagues from universities across the US to conduct research that improves understanding of how landscapes are connected with aquatic systems, and how human activities affect those systems.  She has been with KBNERR for 18 years, and enjoys celebrating grant successes with single malt scotch.  She lives with her husband, son, daughter, two dogs, eight chickens, cat and two guinea pigs at the head of Kachemak Bay.

November 29 – Forecasting Population Growth of the Endangered North Atlantic Right Whale in a Changing Environment

The North Atlantic right whale, an endangered species with roughly 500 individuals remaining, is currently the focus of conservation efforts aimed at reducing mortality rates associated with ship strikes and entanglement in fishing gear. Consistent monitoring of the population since 1980 has revealed evidence that climate-associated changes in prey availability have played an important role in the population’s recovery. The considerable inter-decadal differences observed in population growth coincide with remote Arctic and North Atlantic oceanographic processes that link to the Gulf of Maine ecosystem. Using capture-recapture models, I will quantify the role of prey availability on right whale demographic transitional probabilities and use a corresponding demographic model to forecast population growth rates into the next century. Contrary to previous predictions, the right whale population is projected to recover in the future as long as prey availability and mortality rates remain within the ranges observed during 1980-2012. However, recent events indicate a northward range shift in right whale prey, potentially resulting in decreased prey availability and/or an expansion of right whale habitat into unprotected waters. An annual increase in the number of whale deaths comparable to that observed during the summer 2017 mass mortality event will cause a decline to extinction, even under conditions of normal prey availability. This study highlights the importance of understanding the oceanographic context for observed population changes when evaluating the efficacy of conservation management plans for endangered marine species.

Speaker: Erin Meyer-Gutbrod

Erin is a postdoctoral scholar with the Marine Science Institute at the University of California, Santa Barbara. She is broadly interested in assessing ecosystem response to anthropogenic impacts, with a focus on commercially valuable and at-risk species. She is currently conducting a net environmental benefit analysis of oil and gas platform decommissioning scenarios in the Southern California Bight.

Erin’s Website: https://meyergutbrod.weebly.com/

November 15 – Mobile technologies for fisheries management and enforcement

We carry in our pockets powerful computers and sensors everywhere we go, even when we go to sea. How can we use the special capabilities of mobile devices to help manage fisheries – or even to aid enforcement of fisheries regulations? After surveying the current state of mobile hardware and software, we’ll look at two concrete examples: eCatch, a commercial fishing logbook app in use by The Nature Conservancy; and eFins, a regulation enforcement aid designed for the CA Dept. of Fish & Wildlife. We’ll step through the lessons learned from both apps. Finally, we’ll discuss the emerging capabilities of mobile devices and ways to utilize those new capabilities for fisheries goals.

Speaker: Todd Bryan

Todd works on the design and implementation of SeaSketch. He has extensive experience in commercial software development, having served as tech lead for GoToMeeting and GoToWebinar at Citrix Online. He was also one of the initial employees at the cloud computing firm RightScale

November 1 – Tipping points, recovery potential and baselines in marine systems

Large-scale changes in marine ecosystems with significant both environmental and economic consequences are observed in increasing numbers worldwide. Alterations in structure and functioning of marine ecosystems have been increasingly reported through the world in relation to overfishing, climate change and for example eutrophication. These pronounced and abrupt multi-trophic level reorganizations of large-scale ecosystems are usually termed ecosystem regime shifts. In my talk, I will provide an overview of some main reported regime shifts in marine ecosystems in relation to potential underlying mechanisms. To exemplify the existence of several potential ecosystem states, I will present the Baltic Sea as a case study, as it offers long-term monitoring data. My presentation will include results from state-of-the-art statistical analysis allowing the detection of non-linearity and thresholds in food-web interactions and their potential to recover. The results suggest that shifts in ecological and economic baselines can lead to higher economic uncertainty and costs for exploited ecosystems, in particular under climate change. Several research needs in the field of regime shifts, recovery and baselines will be discussed.

Speaker: Thorsten Blenckner

Thorsten is currently an Associate Professor and leader of the Marine Theme, at the Stockholm Resilience Centre, Stockholm University, Sweden. He has a background in aquatic ecology, climate change and ecosystem processes and function.

October 11 – GeoDesign for “Effective” Stakeholder Engagement in Marine Spatial Planning

Marine spatial planning requires effective stakeholder engagement. For the last 12 years, my lab has been developing and implementing geospatial technologies to increase transparency and stakeholder involvement in marine spatial planning around the world. GeoDesign is a simple approach to designing data-driven spatial plans that seems particularly effective at engaging non-technical stakeholders. I will discuss how we have implemented GeoDesign methods in MarineMap and SeaSketch, two web-based applications used for marine planning. I will also discuss how we are tracking how users are using these tools and introduce the idea of using tradeoff models (and other optimization tools) to investigate the degree to which user-generated plans may be improved to meet science-based goals and objectives.

Speaker: Will McClintock

Will is originally from East Lansing, Michigan, and has studied Biology (B.S., Earlham College), Behavioral Ecology (M.S., University of Cincinnati), Psychology (M.A., Pacifica Graduate Institute) and Ecology, Evolution & Marine Biology (Ph.D., University of California Santa Barbara). He has worked in over a dozen countries to support marine spatial planning in the form of stakeholder-friendly decision support tools.

October 4 – Precipitation Variability Effect on Primary Production: experimentation, modelling and data synthesis from local to global scale

My talk is focused on responses of arid to sub-humid ecosystems to climate change. The main objective of my research is to study how interannual variability of precipitation affects patterns of primary production and to determine which mechanisms govern such responses. In order to investigate cause-effect relationships between precipitation variability and ecosystem response, I carry out a large-scale manipulative experiment, participate in modeling projects, and analyze worldwide long-term data set. Results from these efforts show that interannual precipitation variability itself has a strong effect on primary productivity and that this relationship is independent from the effects of precipitation amount. At the local scale, precipitation variability effects vary among plant-functional types; and, at the global scale, dry sites respond positively and mesic sites respond negatively to increases in interannual precipitation coefficient of variation.

Speaker: Laureano Gherardi

Laureno is an ecosystem ecologist interested in mechanisms governing ecosystem responses to climate change at multiple temporal and spatial scales. In order to pursue this research he combines different complementary approaches ranging from field manipulative experiments to modeling efforts to synthesis of long-term archived data.