Lab News

[Conference] Chris and Hannes present at the 40th Larval Fish Conference

CBL


The 40th Larval Fish Conference of the American Fisheries Society‘s (AFS) Early life history section (ELHS) was held from 19 – 23 June 2016 at the Chesapeake Biological Laboratory in Solomons, MD.

This small conference brought together approximately 150 international scientists to talk about larval fish growth, survival, maternal effects, dispersal, systematics to name just a few. It was held in special honor of Edward Houde, who over his long career has inspired generations of marine scientists.

While Chris was presenting last years data about growth consequences of high CO2 exposure across life stages in our model species, the Atlantic Silverside, Hannes participated in the Early Career workshop and gave a talk about how to approach the writing of a scientific manuscript (PDF).

http://media.befel.marinesciences.uconn.edu/public_html/docs/Baumann-LFC-Writing_workshop_web.pdf

Thanks to all the colleagues and friends for the great time and conversations. See you next year in Austin (TX)!


LFC2016_group
All participants of the 2016 Larval Fish Conference in Solomons, MD
CBL_Pier
Thunderous clouds over Chesapeake Bay, view from CBL
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Generations of scientists were inspired by the work of Ed Houde (middle, right: Catriona Clemessen)
CovePoint_Chris
Chris standing on the tip of Cove Point (Chesapeake Bay)
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Hannes trying to convey to early career scientist at the LFC that writing a scientific manuscript can be approached by breaking up the process into pieces …

[Field work] Extended monitoring in Mumford Cove!

On 6 June 2016, Charlie, Jake and Hannes set course again to the nearby Mumford Cove to retrieve our pH/oxygen/temperature probe (Eureka Manta Sub2) after over six weeks of deployment. Thanks to a newly purchased larger battery-pack that extend the probe-life to more than twice its previous time, the probe continuously recorded conditions every 30 minutes, thereby extending our time series to now over 14 months.

Plus, it was a great, balmy day on the water, and working in the field beats the desk hands down 😉

Check out a selection of the great pics Jake took during the trip below:


  • New Eureka Probe
    The new probe with a copper gauze protector against biofouling is getting deployed

[Lab News] Jake featured at UMM alumni news

Jake reported back to his old undergraduate institution about his current research and how the University of Maine at Machias has inspired him to pursue a career in Marine Sciences.


This week’s Alumni Spotlight shines on Jake Snyder, UMM Class of 2014 with a degree in Marine Biology. Jake lives in Canterbury, Connecticut, and is a research assistant at the University of Connecticut’s Avery Point.

Tell us a little bit about what you are doing now:

Currently, I am a research assistant at UConn Avery Point as part of my masters. I was accepted into the graduate program here in the fall of 2015, and I am now working towards my Masters in Biological Oceanography. Our lab is small, with myself, a doctoral student, and our advisor, but we’re ambitious. Our research is focused on the synergistic effects of ocean acidification, increased temperature, and decreased oxygen on the Atlantic Silverside (Menidia menidia), a near-shore schooling fish. We’ve also recently started working with the Northern Sandlance (Ammodytes dubius), a fish native to Stellwagen Bank. In addition to the lab-based research, I am also digitizing the ~40 year data set collected by Project Oceanology, and developing that into a searchable database as part of the LISICOS (Long Island Sound Integrated Coastal Observing System) system.

Read the whole feature here …

Jake Snyder on Auk
Jake helping to retrieve a SEABOSS sediment grab on board the R/V Auk (Nov 2015)

[Talk] Chris & Jake present at the Feng Graduate Research Colloquium


On 12 May 2016, the Department of Marine Science hosted it’s 11th Biennial Feng Graduate Research Colloquium, during which graduate students of the department traditionally present findings of their thesis research and/or give a preview of their future plans.

This year, Chris presented the results of last years study on long-term changes in growth distributions in Atlantic silversides exposed to high CO2 conditions, whereas Jake presented a poster outlining his thesis research on long-term environmental and biological data collected by Project Oceanology.

In addition, Jake took his poster ‘on the road’ already and presented it at the 16th Long Island Sound Research Conference (13 May, Bridgeport, CT), while Chris will give his talk again at the 40th Larval Fish Conference in June 2016 (17-23 June, Chesapeake Biological Laboratory, Solomons MD).


Murray et al Feng LFC talk


Jake poster

[New publication] Biology Letters publishes CO2 x Hypoxia review

Gobler & Baumann’s review provides a good overview over the nascent field of multi-stressor acidification and hypoxia work. A first part firmly establishes that virtually all hypoxic zones in the ocean are also acidified, given that metabolic processes (i.e., respiration) consume oxygen and release CO2 into the environment. In a second part, the sparse emerging evidence for multistressor effects of low pH (high CO2) and low oxygen are reviewed, showing that while the majority of effects are additively negative, every study so far has also found synergistically negative effects of combined stressors in at least one trait.

This invited review was published Open Access.


Gobler, C.J. and Baumann, H. (2016)
Hypoxia and acidification in ocean ecosystems: Coupled dynamics and effects on marine life.
Biology Letters 12:20150976


Figure2---phxDO-examples
Examples for synergistic negative effects of low DO and low pH (high CO2) on different traits and marine taxa. (a) Synergistic decrease in respiration rate in small and big sea urchins [27]; (b) growth rate of juvenile quahog was unaffected by low DO or low pH individually, but decreased under combined stressor conditions [23]; (c) survival of Atlantic silverside larvae to 10 dph. Survival was robust against low pH and sensitive to low DO, but decreased synergistically under combined stressors (green arrow, [22]); (d) representation of Po ̈rtners [25] ‘Oxygen- and capacity-limited thermal tolerance’ framework, adapted to the multiple stressor scenario of acidification and hypoxia.

Abstract

There is increasing recognition that low dissolved oxygen (DO) and low pH conditions co-occur in many coastal and open ocean environments. Within temperate ecosystems, these conditions not only develop seasonally as temperatures rise and metabolic rates accelerate, but can also display strong diurnal variability, especially in shallow systems where photosynthetic rates ameliorate hypoxia and acidification by day. Despite the widespread, global co-occurrence of low pH and low DO and the likelihood that these conditions may negatively impact marine life, very few studies have actually assessed the extent to which the combination of both stressors elicits additive, synergistic or antagonistic effects in marine organisms. We review the evidence from published factorial experiments that used static and/or fluctuating pH and DO levels to examine different traits (e.g. survival, growth, metabolism), life stages and species across a broad taxonomic spectrum. Additive negative effects of combined low pH and low DO appear to be most common; however, synergistic negative effects have also been observed. Neither the occurrence nor the strength of these synergistic impacts is currently predictable, and there- fore, the true threat of concurrent acidification and hypoxia to marine food webs and fisheries is still not fully understood. Addressing this knowledge gap will require an expansion of multi-stressor approaches in experimental and field studies, and the development of a predictive framework. In consider- ation of marine policy, we note that DO criteria in coastal waters have been developed without consideration of concurrent pH levels. Given the per- sistence of concurrent low pH–low DO conditions in estuaries and the increased mortality experienced by fish and bivalves under concurrent acidifi- cation and hypoxia compared with hypoxia alone, we conclude that such DO criteria may leave coastal fisheries more vulnerable to population reductions than previously anticipated.

[Student video] Climate Change: A Future for Fish in a Changing Ocean

A big shout-out to Megan, Rainer, and Liz who apart from their intrepid work as volunteers in our lab also excelled here in their video project for MARN3000. They interviewed Profs. Kelly Lombardo, Michael Finiguerra, and Hannes Baumann about aspects of Marine Climate Change and then cut their answers with researched video material from the web. Note the sartorial touch throughout the clip (6 min)!
Well done, all!



Megan-Barry
Megan Barry
Rainer-Moy-Huwyler
Rainer Moy-Huwyler
Elizabeth-Karamavros
Elizabeth Karamavros

[Outreach] A busy year in Mumford Cove

On 13 April, Hannes was invited to the board meeting of the Mumford Cove Association to present a brief update about our groups research activities in and around the cove. It is part of our commitment to public education and outreach to keep property owners informed and maintain good relationships with all parties involved.

The information material below contains graphical summaries of our activities, i.e., measuring water quality parameters continuously with a logging probe and conducting biweekly beach seine surveys for silversides.

To a productive year 2016 in the cove!

Mumford Cove Ass_probe
Mumford Cove Ass_silversides

[Brown bag] Tips & tricks for preparing a good presentation

In preparation for the upcoming Feng Graduate Research Colloquium on Thursday, May 12 (Conn Avery Point, Marine Sciences), Hannes gave a brown bag seminar on how to make an effective presentation.

You can access/download the powerpoint of via this link below or by clicking on the image below.

Brown bag 4-13-16

[Lecture] OA multistressor lecture at Mitchell College

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Mitchell_College_email_logo_7_2015

On 15 March, Hannes gave a lecture at Mitchell College in New London, talking about the combined effects of ocean warming, acidification, and hypoxia on marine organisms. The entire lecture is publicly available at Limnology & Oceanography e-lectures.

“It was such a pleasure to have you present to the class today; your lecture was excellent – engaging with just the right amount and level of information. I’m glad that you intend to continue to provide outreach/education to the community on this topic.”

Amy Cabaniss, Adjunct Faculty – Marine Ecology, Environmental Studies (STEM)