Tag Archives: Experimental Lakes Area

Investigating nanoparticles and their environmental impact for industry?

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It seems the Center for the Environmental Implications of Nanotechnology (CEINT) at Duke University (North Carolina, US) is making an adjustment to its focus and opening the door to industry, as well as, government research. It has for some years (my first post about the CEINT at Duke University is an Aug. 15, 2011 post about its mesocosms) been focused on examining the impact of nanoparticles (also called nanomaterials) on plant life and aquatic systems. This Jan. 9, 2017 US National Science Foundation (NSF) news release (h/t Jan. 9, 2017 Nanotechnology Now news item) provides a general description of the work,

We can’t see them, but nanomaterials, both natural and manmade, are literally everywhere, from our personal care products to our building materials–we’re even eating and drinking them.

At the NSF-funded Center for Environmental Implications of Nanotechnology (CEINT), headquartered at Duke University, scientists and engineers are researching how some of these nanoscale materials affect living things. One of CEINT’s main goals is to develop tools that can help assess possible risks to human health and the environment. A key aspect of this research happens in mesocosms, which are outdoor experiments that simulate the natural environment – in this case, wetlands. These simulated wetlands in Duke Forest serve as a testbed for exploring how nanomaterials move through an ecosystem and impact living things.

CEINT is a collaborative effort bringing together researchers from Duke, Carnegie Mellon University, Howard University, Virginia Tech, University of Kentucky, Stanford University, and Baylor University. CEINT academic collaborations include on-going activities coordinated with faculty at Clemson, North Carolina State and North Carolina Central universities, with researchers at the National Institute of Standards and Technology and the Environmental Protection Agency labs, and with key international partners.

The research in this episode was supported by NSF award #1266252, Center for the Environmental Implications of NanoTechnology.

Miles O’Brien, Science Nation Correspondent
Ann Kellan, Science Nation Producer

The mention of industry is in this video by O’Brien and Kellan, which describes CEINT’s latest work ,

Somewhat similar in approach although without a direction reference to industry, Canada’s Experimental Lakes Area (ELA) is being used as a test site for silver nanoparticles. Here’s more from the Distilling Science at the Experimental Lakes Area: Nanosilver project page,

Water researchers are interested in nanotechnology, and one of its most commonplace applications: nanosilver. Today these tiny particles with anti-microbial properties are being used in a wide range of consumer products. The problem with nanoparticles is that we don’t fully understand what happens when they are released into the environment.

The research at the IISD-ELA [International Institute for Sustainable Development Experimental Lakes Area] will look at the impacts of nanosilver on ecosystems. What happens when it gets into the food chain? And how does it affect plants and animals?

Here’s a video describing the Nanosilver project at the ELA,

You may have noticed a certain tone to the video and it is due to some political shenanigans, which are described in this Aug. 8, 2016 article by Bartley Kives for the Canadian Broadcasting Corporation’s (CBC) online news.

The Canadian nano scene as seen by the OECD (Organization for Economic Cooperation and Development)

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I’ve grumbled more than once or twice about the seemingly secret society that is Canada’s nanotechnology effort (especially health, safety, and environment issues) and the fact that I get most my information from Organization for Economic Cooperation and Development (OECD) documents. That said, thank you to Lynne Bergeson’s April 8, 2016 post on Nanotechnology Now for directions to the latest OECD nano document,

The Organization for Economic Cooperation and Development recently posted a March 29, 2016, report entitled Developments in Delegations on the Safety of Manufactured Nanomaterials — Tour de Table. … The report compiles information, provided by Working Party on Manufactured Nanomaterials (WPMN) participating delegations, before and after the November 2015 WPMN meeting, on current developments on the safety of manufactured nanomaterials.

It’s an international roundup that includes: Australia, Austria, Belgium, Canada, Germany, Japan, Korea, the Netherlands, Switzerland, Turkey, United Kingdom, U.S., and the European Commission (EC), as well as the Business and Industry Advisory Committee to the OECD (BIAC) and International Council on Animal Protection in OECD Programs (ICAPO).

As usual, I’m focusing on Canada. From the DEVELOPMENTS IN DELEGATIONS ON THE SAFETY OF MANUFACTURED NANOMATERIALS – TOUR DE TABLE Series on the Safety of Manufactured Nanomaterials No. 67,

CANADA
National  developments  on  human  health  and  environmental  safety  including  recommendations, definitions, or discussions related to adapting or applying existing regulatory systems or the drafting of new laws/ regulations/amendments/guidance materials A consultation document on a Proposed Approach to Address Nanoscale Forms of Substances on the Domestic  Substances  List was  published  with  a  public  comment  period  ending on  May  17,  2015. The proposed approach outlines the Government’s plan to address nanomaterials considered in commerce in Canada (on  Canada’s  public inventory).  The  proposal is a stepwise  approach to  acquire  and  evaluate information,  followed  by  any  necessary  action. A  follow-up  stakeholder  workshop  is  being  planned  to discuss  next  steps  and  possible  approaches  to prioritize  future  activities. The  consultation document  is available at: http://www.ec.gc.ca/lcpe-cepa/default.asp?lang=En&n=1D804F45-1

A mandatory information gathering survey was published on July 25, 2015. The purpose of the survey is to collect information to determine the commercialstatus of certain nanomaterials in Canada. The survey targets  206  substances  considered  to  be  potentially  in commerce  at  the  nanoscale. The  list  of  206 substances was developed using outcomes from the Canada-United States Regulatory Cooperation Council (RCC)  Nanotechnology  Initiative  to  identify nanomaterial  types. These  nanomaterial  types  were  cross-referenced  with  the Domestic  Substances  List to  develop  a  preliminary  list  of  substances  which are potentially intentionally manufactured at the nanoscale. The focus of the survey aligns with the Proposed Approach to  Address  Nanoscale  Forms  of  Substances  on  the Domestic  Substances  List (see  above)  and certain  types  of  nanomaterials  were  excluded  during the  development  of  the  list  of  substances. The information  being  requested  by  the  survey  includes substance  identification,  volumes,  and  uses.  This information will feed into the Government’s proposed approach to address nanomaterials on the Domestic Substances List. Available at: http://gazette.gc.ca/rp-pr/p1/2015/2015-07-25/html/notice-avis-eng.php

Information on:

a.risk  assessment  decisions, including  the  type  of:  (a)  nanomaterials  assessed; (b) testing recommended; and (c) outcomes of the assessment;

Four substances were notified to the program since the WPMN14 – three surface modified substances and  one  inorganic  substance.  No  actions,  including  additional  data requests,  were  taken  due  to  low expected  exposures  in  accordance  with  the New  Substances  Notifications  Regulations  (Chemicals and Polymers) (NSNR) for two of the substances.  Two of the substances notified were subject to a Significant New Activity Notice. A Significant New Activity notice is an information gathering tool used to require submission  of  additional  information  if  it  is suspected  that  a  significant  new  activity  may  result in  the substance becoming toxic under the Canadian Environmental Protection Act, 1999.

b.Proposals, or modifications to previous regulatory decisions

As  part  of  the  Government’s  Chemicals  Management Plan,  a  review  is  being  undertaken  for  all substances  which  have  been  controlled through  Significant  New  Activity  (SNAc)  notices (see  above).  As part  of  this  activity,  the  Government  is  reviewing past  nanomaterials  SNAc  notices  to  see  if  new information  is  available  to  refine  the  scope  and information  requirements.    As  a  result  of  this  review, 9 SNAc  notices  previously  in  place  for  nanomaterials have  been  rescinded.    This  work  is  ongoing,  and  a complete review of all nanomaterial SNAcs is currently planned to be completed in 2016.

Information related to good practice documents

The Canada-led,  ISO  standards project, ISO/DTR  19716 Nanotechnologies — Characterization  of cellulose  nanocrystals, [emphasis mine] initiated  in  April 2014, is  now at Committee  Draft  (CD)  3-month  ISO ballot, closing    Aug 31, 2015. Ballot comments will be addressed during JWG2 Measurement and Characterization working  group meetings  at  the 18th Plenary  of  ISO/TC229, Nanotechnologies,  being held in Edmonton, Alberta, Sep. 28 – Oct. 2, 2015.

Research   programmes   or   strategies   designed   to  address   human   health   and/   or environmental safety aspects of nanomaterials

Scientific research

Environment Canada continues to support various academic and departmental research projects. This research has to date included studying fate and effects of nanomaterials in the aquatic, sediment, soil, and air  compartments. Funding  in  fiscal  2015-16  continues  to  support  such  projects,  including  sub-surface transportation, determining key physical-chemical parameters to predict ecotoxicity, and impacts of nano-silver [silver nanoparticles]  addition  to  a  whole  lake  ecosystem [Experimental Lakes Area?]. Environment  Canada  has  also  partnered  with  the National Research  Council  of  Canada  recently  to  initiate  a project  on  the  development  of  test  methods  to identify surfaces of nanomaterials for the purposes of regulatory identification and to support risk assessments. In addition,  Environment  Canada  is  working  with  academic laboratories in  Canada  and  Germany  to  prepare guidance to support testing of nanoparticles using the OECD Test Guideline for soil column leaching.

Health  Canada  continues  its  research  efforts  to  investigate  the  effects  of  surface-modified  silica nanoparticles. The   aims   of   these   projects   are  to:   (1) study the importance of size and surface functionalization;  and  (2)  provide a genotoxic profile and  to  identify  mechanistic  relationships  of  particle properties  to  elicited  toxic  responses.  A manuscript reporting  the in  vitro genotoxic,  cytotoxic and transcriptomic  responses  following  exposure  to  silica  nanoparticles  has  recently  been  submitted to  a  peer reviewed journal and is currently undergoing review. Additional manuscripts reporting the toxicity results obtained to date are in preparation.

Information on public/stakeholder consultations;

A consultation document on a Proposed Approach to Address Nanoscale Forms of Substances on the Domestic  Substances  List was  published  with a  public  comment  period ending  on May  17,  2015  (see Question  1).  Comments  were  received  from approximately  20  stakeholders  representing  industry and industry  associations,  as  well  as  non-governmental  organizations. These  comments  will  inform  decision making to address nanomaterials in commerce in Canada.

Information on research or strategies on life cycle aspects of nanomaterials

Canada, along with Government agencies in the United States, Non-Governmental Organizations and Industry,  is  engaged  in  a  project  to  look  at releases  of  nanomaterials  from  industrial  consumer  matrices (e.g., coatings). The objectives of the NanoRelease Consumer Products project are to develop protocols or
methods (validated  through  interlaboratory  testing) to  measure  releases  of  nanomaterials  from  solid matrices as a result of expected uses along the material life cycle for consumer products that contain the nanomaterials. The  project  is  currently  in  the  advanced  stages  of Phase  3  (Interlaboratory  Studies).  The objectives of Phase 3 of the project are to develop robust methods for producing and collecting samples of CNT-epoxy  and  CNT-rubber  materials  under  abrasion  and  weathering scenarios,  and  to  detect  and quantify, to the extent possible, CNT release fractions. Selected laboratories in the US, Canada, Korea and the European Community are finalising the generation and analysis of sanding and weathering samples and the    results    are    being    collected    in    a   data    hub    for    further    interpretation    and    analysis.

Additional details about the project can be found at the project website: http://www.ilsi.org/ResearchFoundation/RSIA/Pages/NanoRelease1.aspx

Under the OECD Working Party on Resource Productivity and Waste (WPRPW), the expert group on waste containing nanomaterials has developed four reflection papers on the fate of nanomaterials in waste treatment  operations.  Canada  prepared the  paper  on  the  fate  of  nanomaterials in  landfills;  Switzerland on the  recycling  of  waste  containing  nanomaterials;  Germany  on  the  incineration  of  waste  containing nanomaterials;  and  France  on  nanomaterials  in wastewater  treatment.  The  purpose  of  these  papers is to provide  an  overview  of  the  existing  knowledge  on the  behaviour  of  nanomaterials  during  disposal operations and identify the information gaps. At the fourth meeting of the WPRPW that took place on 12-14 November 2013, three of the four reflection papers were considered by members. Canada’s paper was presented and discussed at the fifth meeting of the WPRPRW that took place on 8-10 December 2014. The four  papers  were  declassified  by  EPOC  in  June  2015, and  an  introductory  chapter  was  prepared  to  draw these  papers  together. The introductory  chapter  and accompanying  papers  will  be  published in  Fall  2015. At  the sixth  meeting  of  the  WPRPW  in  June – July  2015,  the  Secretariat  presented  a  proposal  for an information-sharing  platform  that  would  allow  delegates  to  share research  and  documents  related  to nanomaterials. During a trial phase, delegates will be asked to use the platform and provide feedback on its use at the next meeting of the WPRPW in December 2015. This information-sharing platform will also be accessible to delegates of the WPMN.

Information related to exposure measurement and exposure mitigation.

Canada and the Netherlands are co-leading a project on metal impurities in carbon nanotubes. A final version  of  the  report  is  expected  to  be ready for WPMN16. All  research has  been completed (e.g. all components are published or in press and there was a presentation by Pat Rasmussen to SG-08 at the Face-to-Face Meeting in Seoul June 2015). The first draft will be submitted to the SG-08 secretariat in autumn 2015. Revisions  will  be  based  on  early  feedback  from  SG-08  participants.  The  next  steps  depend  on  this feedback and amount of revision required.

Information on past, current or future activities on nanotechnologies that are being done in co-operation with non-OECD countries.

A webinar between ECHA [European Chemicals Agency], the US EPA [Environmental Protection Agency] and Canada was hosted by Canada on April 16, 2015. These are  regularly  scheduled  trilateral  discussions  to keep  each  other  informed  of  activities  in  respective jurisdictions.

In  March 2015, Health  Canada  hosted  3  nanotechnology knowledge  transfer sessions  targeting Canadian  government  research  and  regulatory  communities  working  in  nanotechnology.  These  sessions were  an  opportunity  to  share  information  and perspectives  on  the  current  state  of  science supporting  the regulatory  oversight  of  nanomaterials with  Government.  Presenters  provided  detailed  outputs  from  the OECD WPMN including: updates on OECD test methods and guidance documents; overviews of physical-chemical properties, as well as their relevance to toxicological testing and risk assessment; ecotoxicity and fate   test   methods;   human   health   risk   assessment   and   alternative   testing   strategies;   and exposure measurement  and  mitigation.  Guest  speakers  included  Dr  Richard  C.  Pleus  Managing  Director  and  Director of Intertox, Inc and Dr. Vladimir Murashov Special Assistant on Nanotechnology to the Director of National Institute for Occupational Safety and Health (NIOSH).

On   March   4-5, 2015, Industry   Canada   and   NanoCanada co-sponsored  “Commercializing Nanotechnology  in  Canada”,  a  national  workshop  that brought  together  representatives  from  industry, academia and government to better align Canada’s efforts in nanotechnology.  This workshop was the first of  its  kind  in  Canada. It  also  marked  the  official  launch  of  NanoCanada (http://nanocanada.com/),  a national  initiative  that  is  bringing  together stakeholders  from  across  Canada  to  bridge  the  innovation  gap and stimulates emerging technology solutions.

It’s nice to get an update about what’s going on. Despite the fact this report was published in 2016 the future tense is used in many of the verbs depicting actions long since accomplished. Maybe this was a cut-and-paste job?

Moving on, I note the mention of the Canada-led,  ISO  standards project, ISO/DTR  19716 Nanotechnologies — Characterization  of cellulose  nanocrystals (CNC). For those not familiar with CNC, the Canadian government has invested hugely in this material derived mainly from trees, in Canada. Other countries and jurisdictions have researched nanocellulose derived from carrots, bananas, pineapples, etc.

Finally, it was interesting to find out about the existence of  NanoCanada. In looking up the Contact Us page, I noticed Marie D’Iorio’s name. D’Iorio, as far as I’m aware, is still the Executive Director for Canada’s National Institute of Nanotechnology (NINT) or here (one of the National Research Council of Canada’s institutes). I have tried many times to interview someone from the NINT (Nils Petersen, the first NINT ED and Martha Piper, a member of the advisory board) and more recently D’Iorio herself only to be be met with a resounding silence. However, there’s a new government in place, so I will try again to find out more about the NINT, and, this time, NanoCanada.

Frogs: monitoring them, finding new species, and research about the golden ones in Panama

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I have three frog-oriented items and while they’re not strictly speaking in my usual range of topics, given this blog’s name and the fact I haven’t posted a frog piece in quite a while, it seems this is a good moment to address that lack.

Monitoring frogs and amphibians at Trent University (Ontario, Canada)

From a March 23, 2015 Trent University news release,

With the decline of amphibian populations around the world, a team of researchers led by Trent University’s Dr. Dennis Murray will seek to establish environmental DNA (eDNA) monitoring of amphibian occupancy and aquatic ecosystem risk assessment with the help of a significant grant of over $596,000 from the Natural Sciences and Engineering Research Council of Canada (NSERC).

Awarded to Professor Murray, a Canada research chair in integrative wildlife conservation, bioinformatics, and ecological modelling and professor at Trent University along with colleagues Dr. Craig Brunetti of the Biology department, and Dr. Chris Kyle of the Forensic Science program, and partners at Laurentian University, University of Toronto, McGill University, Ontario Ministry of Natural Resources and Forestry and Environment Canada, the grant will support the development of tools that will promote a cleaner aquatic environment.

The project will use amphibian DNA found in natural breeding habitats to determine the presence and abundance of amphibians as well as their pathogens. This new technology capitalizes on Trent University’s expertise and infrastructure in the areas of wildlife DNA and water quality.

“We’re honoured to have received the grant to help us drive the project forward,” said Prof. Murray. “Our plan is to place Canada, and Trent, in a leadership position with respect to aquatic wildlife monitoring and amphibian conservation.”

Amphibian populations are declining worldwide, yet in Canada, amphibian numbers are not monitored closely, meaning changes in their distribution or abundance may be unnoticeable. Amphibian monitoring in Canada is conducted by citizen scientists who record frog breeding calls when visiting bodies of water during the spring. However, the lack of formalized amphibian surveys leaves Canada in a vulnerable position regarding the status of its diverse amphibian community.

Prof. Murray believes that the protocols developed from this project could revolutionize how amphibian populations are monitored in Canada and in turn lead to new insights regarding the population trends for several amphibian species across the country.

Here’s more about NSERC and Trent University from the news release,

About NSERC

NSERC is a federal agency that helps make Canada a country of discoverers and innovators. The agency supports almost 30,000 post-secondary students and postdoctoral fellows in their advanced studies. NSERC promotes discovery by funding approximately 12,000 professors every year and fosters innovation by encouraging over 2,400 Canadian companies to participate and invest in post-secondary research projects.

The NSERC Strategic Project Grants aim to increase research and training in areas that could strongly influence Canada’s economy, society or environment in the next 10 years in four target areas: environmental science and technologies; information and communications technologies; manufacturing; and natural resources and energy.

About Trent University

One of Canada’s top universities, Trent University was founded on the ideal of interactive learning that’s personal, purposeful and transformative. Consistently recognized nationally for leadership in teaching, research and student satisfaction, Trent attracts excellent students from across the country and around the world. Here, undergraduate and graduate students connect and collaborate with faculty, staff and their peers through diverse communities that span residential colleges, classrooms, disciplines, hands-on research, co-curricular and community-based activities. Across all disciplines, Trent brings critical, integrative thinking to life every day. As the University celebrates its 50th anniversary in 2014/15, Trent’s unique approach to personal development through supportive, collaborative community engagement is in more demand than ever. Students lead the way by co-creating experiences rooted in dialogue, diverse perspectives and collaboration. In a learning environment that builds life-long passion for inclusion, leadership and social change, Trent’s students, alumni, faculty and staff are engaged global citizens who are catalysts in developing sustainable solutions to complex issues. Trent’s Peterborough campus boasts award-winning architecture in a breathtaking natural setting on the banks of the Otonabee River, just 90 minutes from downtown Toronto, while Trent University Durham delivers a distinct mix of programming in the GTA.

Trent University’s expertise in water quality could be traced to its proximity to Canada’s Experimental Lakes Area (ELA), a much beleaguered research environment due to federal political imperatives. You can read more about the area and the politics in this Wikipedia entry. BTW, I am delighted to learn that it still exists under the auspices of the International Institute for Sustainable Development (IISD),

Taking this post into nanotechnology territory while mentioning the ELA, Trent University published a Dec. 8, 2014 news release about research into silver nanoparticles,

For several years, Trent University’s Dr. Chris Metcalfe and Dr. Maggie Xenopoulos have dedicated countless hours to the study of aquatic contaminants and the threat they pose to our environment.

Now, through the efforts of the International Institute for Sustainable Development (IISD), their research is reaching a wider audience thanks to a new video (Note: A link has been removed).

The video is one of a five-part series being released by the IISD that looks into environmental issues in Canada. The video entitled “Distilling Science at the Experimental Lakes Area: Nanosilver” and featuring Professors Metcalfe and Xenopoulos profiles their research around nanomaterials at the Experimental Lakes Area.

Prof. Xenopolous’ involvement in the project falls in line with other environmental issues she has tackled. In the past, her research has examined how human activities – including climate change, eutrophication and land use – affect ecosystem structure and function in lakes and rivers. She has also taken an interest in how land use affects the material exported and processed in aquatic ecosystems.

Prof. Metcalfe’s ongoing research on the fate and distribution of pharmaceutical and personal care products in the environment has generated considerable attention both nationally and internationally.

Together, their research into nanomaterials is getting some attention. Nanomaterials are submicroscopic particles whose physical and chemical properties make them useful for a variety of everyday applications. They can be found in certain pieces of clothing, home appliances, paint, and kitchenware. Initial laboratory research conducted at Trent University showed that nanosilver could strongly affect aquatic organisms at the bottom of the food chain, such as bacteria, algae and zooplankton.

To further examine these effects in a real ecosystem, a team of researchers from Trent University, Fisheries and Oceans Canada and Environment Canada has been conducting studies at undisclosed lakes in northwestern Ontario. The Lake Ecosystem Nanosilver (LENS) project has been monitoring changes in the lakes’ ecosystem that occur after the addition of nanosilver.

“In our particular case, we will be able to study and understand the effects of only nanosilver because that is the only variable that is going to change,” says Prof. Xenopoulos. “It’s really the only place in the world where we can do that.”

The knowledge gained from the study will help policy-makers make decisions about whether nanomaterials can be a threat to aquatic ecosystems and whether regulatory action is required to control their release into the environment.

You can find the 13 mins. video here: https://www.youtube.com/watch?v=_nJai_B4YH0#action=share

Shapeshifting frogs, a new species in Ecuador

Caption: This image shows skin texture variation in one individual frog (Pristimantis mutabilis) from Reserva Las Gralarias. Note how skin texture shifts from highly tubercular to almost smooth; also note the relative size of the tubercles on the eyelid, lower lip, dorsum and limbs. Credit: Zoological Journal of the Linnean Society

Caption: This image shows skin texture variation in one individual frog (Pristimantis mutabilis) from Reserva Las Gralarias. Note how skin texture shifts from highly tubercular to almost smooth; also note the relative size of the tubercles on the eyelid, lower lip, dorsum and limbs.
Credit: Zoological Journal of the Linnean Society

Here’s more about the shapeshifting and how the scientists figured out what the frogs were doing (from a March 23, 2015 Case Western Research University news release on EurekAlert; Note: A link has been removed),

A frog in Ecuador’s western Andean cloud forest changes skin texture in minutes, appearing to mimic the texture it sits on.

Originally discovered by a Case Western Reserve University PhD student and her husband, a projects manager at Cleveland Metroparks’ Natural Resources Division, the amphibian is believed to be the first known to have this shape-shifting capability.

But the new species, called Pristimantis mutabilis, or mutable rainfrog, has company. Colleagues working with the couple recently found that a known relative of the frog shares the same texture-changing quality–but it was never reported before.

The frogs are found at Reserva Las Gralarias, a nature reserve originally created to protect endangered birds in the Parish of Mindo, in north-central Ecuador.

The researchers, Katherine and Tim Krynak, and colleagues from Universidad Indoamérica and Tropical Herping (Ecuador) co-authored a manuscript describing the new animal and skin texture plasticity in the Zoological Journal of the Linnean Society this week. They believe their findings have broad implications for how species are and have been identified. The process may now require photographs and longer observations in the field to ensure the one species is not mistakenly perceived as two because at least two species of rain frogs can change their appearance.

Katherine Krynak believes the ability to change skin texture to reflect its surroundings may enable P. mutabilis to help camouflage itself from birds and other predators.

The Krynaks originally spotted the small, spiny frog, nearly the width of a marble, sitting on a moss-covered leaf about a yard off the ground on a misty July night in 2009. The Krynaks had never seen this animal before, though Tim had surveyed animals on annual trips to Las Gralarias since 2001, and Katherine since 2005.

They captured the little frog and tucked it into a cup with a lid before resuming their nightly search for wildlife. They nicknamed it “punk rocker” because of the thorn-like spines covering its body.

The next day, Katherine Krynak pulled the frog from the cup and set it on a smooth white sheet of plastic for Tim to photograph. It wasn’t “punk “–it was smooth-skinned. They assumed that, much to her dismay, she must have picked up the wrong frog.

“I then put the frog back in the cup and added some moss,” she said. “The spines came back… we simply couldn’t believe our eyes, our frog changed skin texture!

“I put the frog back on the smooth white background. Its skin became smooth.”

“The spines and coloration help them blend into mossy habitats, making it hard for us to see them,” she said. “But whether the texture really helps them elude predators still needs to be tested.”

During the next three years, a team of fellow biologists studied the frogs. They found the animals shift skin texture in a little more than three minutes.

Juan M. Guayasamin, from Universidad Tecnológica Indoamérica, Ecuador, the manuscript’s first author, performed morphological and genetic analyses showing that P. mutabilis was a unique and undescribed species. Carl R. Hutter, from the University of Kansas, studied the frog’s calls, finding three songs the species uses, which differentiate them from relatives. The fifth author of the paper, Jamie Culebras, assisted with fieldwork and was able to locate a second population of the species. Culebras is a member of Tropical Herping, an organization committed to discovering, and studying reptiles and amphibians.

Guayasamin and Hutter discovered that Prismantis sobetes, a relative with similar markings but about twice the size of P. mutabilis, has the same trait when they placed a spiny specimen on a sheet and watched its skin turn smooth. P. sobetes is the only relative that has been tested so far.

Because the appearance of animals has long been one of the keys to identifying them as a certain species, the researchers believe their find challenges the system, particularly for species identified by one or just a few preserved specimens. With those, there was and is no way to know if the appearance is changeable.

The Krynaks, who helped form Las Gralarias Foundation to support the conservation efforts of the reserve, plan to return to continue surveying for mutable rain frogs and to work with fellow researchers to further document their behaviors, lifecycle and texture shifting, and estimate their population, all in effort to improve our knowledge and subsequent ability to conserve this paradigm shifting species.

Further, they hope to discern whether more relatives have the ability to shift skin texture and if that trait comes from a common ancestor. If P. mutabilis and P. sobetes are the only species within this branch of Pristimantis frogs to have this capability, they hope to learn whether they retained it from an ancestor while relatives did not, or whether the trait evolved independently in each species.

Golden frog of Panama and its skin microbiome

Caption: Researchers studied microbial communities on the skin of Panamanian golden frogs to learn more about amphibian disease resistance. Panamanian golden frogs live only in captivity. Continued studies may help restore them back to the wild. Credit: B. Gratwicke/Smithsonian Conservation Biology Institute

Caption: Researchers studied microbial communities on the skin of Panamanian golden frogs to learn more about amphibian disease resistance. Panamanian golden frogs live only in captivity. Continued studies may help restore them back to the wild.
Credit: B. Gratwicke/Smithsonian Conservation Biology Institute

Among many of the pressures on frog populations, there’s a lethal fungus which has affected some 200 species of frogs. A March 23, 2015 news item on ScienceDaily describes some recent research into the bacterial communities present on frog skin,

A team of scientists including Virginia Tech researchers is one step closer to understanding how bacteria on a frog’s skin affects its likelihood of contracting disease.

A frog-killing fungus known as Batrachochytrium dendrobatidis, or Bd, has already led to the decline of more than 200 amphibian species including the now extinct-in-the-wild Panamanian golden frog.

In a recent study, the research team attempted to apply beneficial bacteria found on the skin of various Bd-resistant wild Panamanian frog species to Panamanian golden frogs in captivity, to see if this would stimulate a defense against the disease.

A March 23, 2015 Virginia Tech University news release on EurekAlert, which originated the news item, provides a twist and a turn in the story (Note: Links have been removed),

They found that while the treatment with beneficial bacteria was not successful due to its inability to stick to the skin, there were some frogs that survived exposure to the fungus.

These survivors actually had unique bacterial communities on their skin before the experiments started.

The next step is to explore these new bacterial communities.

“We were disappointed that the treatment didn’t work, but glad to have discovered new information about the relationship between these symbiotic microbial communities and amphibian disease resistance,” said Lisa Belden, an associate professor of biological sciences in the College of Science, a Fralin Life Science Institute affiliate, and a faculty member with the new Global Change Center at Virginia Tech. “Every bit of information gets us closer to getting these frogs back into nature.”

Studying the microbial communities of Panamanian golden frogs was the dissertation focus of Belden’s former graduate student Matthew Becker, who graduated with a Ph.D. in biological sciences from Virginia Tech in 2014 and is now a fellow at the Smithsonian Conservation Biology Institute.

“Anything that can help us predict resistance to this disease is very useful because the ultimate goal of this research is to establish healthy populations of golden frogs in their native habitat,” Becker told Smithsonian Science News. “I think identifying alternative probiotic treatment methods that optimize dosages and exposure times will be key for moving forward with the use of probiotics to mitigate chytridiomycosis.”

Here’s a link to and a citation for the paper,

Composition of symbiotic bacteria predicts survival in Panamanian golden frogs infected with a lethal fungus by Matthew H. Becker , Jenifer B. Walke , Shawna Cikanek , Anna E. Savage , Nichole Mattheus , Celina N. Santiago , Kevin P. C. Minbiole , Reid N. Harris , Lisa K. Belden , Brian Gratwicke. April 2015 Volume: 282 Issue: 1805 DOI: 10.1098/rspb.2014.2881 Published 18 March 2015

This is an open access paper.

For anyone curious about the article in the Smithsonian mentioned in the news release, you can find it here.

 

Ottawa science protest (Death of Evidence rally) inspired by UK Science for the Future funeral

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9 am PST (12 noon EST) today (July 10, 2012), scientists in Ottawa are staging a mock funeral for a ‘Death of Evidence’ protest. (ETA July 10, 2012 10:4e am PST, here’s a link to the CBC [Canadian Broadcasting Corporation] liveblog of the rally.) Natalie Stechyson wrote a July 8, 2012 article for the Ottawa Citizen describing the proposed event,

A funeral procession — complete with a coffin, black-clad mourners and a scythe-wielding grim reaper — will make its way to Parliament Hill Tuesday as hundreds of scientists from across Canada rally in protest of federal science cuts.

Members of Canada’s scientific community are staging the rally to mourn the “death of evidence” in what the rally’s organizers say is the federal government’s war on science.

The cuts, according to the organizers’ media release, are being imposed on critical research programs in Environment Canada, Fisheries and Oceans Canada, the National Research Council of Canada, Statistics Canada, through the closure of Experimental Lakes Area, the Polar Environment Atmospheric Research Laboratory and the First Nations Statistical Institute, and through the elimination of the National Science Adviser and National Round Table on Environment and Economy.

It would be easy to say that scientists are upset because the cuts are resulting job losses, but the issues are much more fundamental than that, Findlay [co-organizer Scott Findlay, associate professor of biology and former director the University of Ottawa’s Institute of the Environment]  said.

US environment correspondent, Suzanne Goldenberg wrote a July 9, 2012 blog posting in the UK’s Guardian newspaper noting (Note: I have removed some links),

Canada’s prime minister, Stephen Harper, faces a widening revolt by the country’s leading scientists against sweeping cuts to government research labs and broadly pro-industry policies.

The scientists plan to march through Ottawa in white lab coats on Tuesday in the second big protest in a month against the Harper government’s science and environmental agenda.

Harper is accused of pushing through a slew of policies weakening or abolishing environmental protections – with an aim of expanding development of natural resources such as the Alberta tar sands.

His government is also accused of jeopardising Canada’s scientific reputation by shutting down the Experimental Lakes Area (ELA), a research station that produced critical evidence to help stop acid rain.

The prime minister’s office refused to comment on the protests or the budget cuts. The environment minister, Peter Kent, also declined to respond.

… the cuts that seem to have galvanised the protests on Tuesday was the government’s decision to shut down the Experimental Lakes Area in March 2013.

Since the decision first trickled out – as a government leak – the Harper government has faced widening criticism in Canadian media.

Scientists say the closure, due in March 2013, would rob researchers of a rare chance to conduct science on a real-life scale – not just in a laboratory flask, said Smol [Prof John Smol, a freshwater lake biologist at Queen’s University in Kingston].

Over the years, it has provided critical evidence on the causes of acid rain, and the effects on fish and their habitats of dumping fertilisers, detergents, or mercury.

“Any water quality problem we have on the planet, the research started out there,” Smol said. “I think we need that information to get solid policy to deal with our environmental problems.”

(I have mentioned the Experimental Lakes Area (ELA) previously in a June 12, 2012 posting and in a May 3, 2012 posting.)

If you are moved to join this protest but can’t attend the Ottawa event, you can participate virtually at the Death of Evidence website by joining in a Virtual Candlelight Vigil,

Use your cell phone or a digital camera to take photo of you holding a candle. If possible, incorporate a science-related tool or symbol in your photo (calculator, test tube, graduated cylinder, periodic table, magnifying glass, compass, goggles, etc).

You can upload that photo to the Candlelight Vigil: Death of Evidence group on Flickr: http://www.flickr.com/groups/solidaritydoe/ or email it to vigil@deathofevidence.ca. We will post those photos on the website at www.deathofevidence.ca and will send a message with all of these photos to Prime Minister Stephen Harper.

The theatrical elements of the Death of Evidence rally seem to have been inspired by a May 15, 2012 protest held in London, England (from the May 15, 2012 posting by Adam Smith for the UK Guardian newspaper),

More than 100 scientists took part in a mock Victorian funeral procession in Westminster on Tuesday morning to protest against a science funding policy they claim “puts the future of British science in mortal danger”.

The scientists staged a rally outside parliament before delivering a petition in a coffin to Downing Street. Around 25 scientists also met their MPs to ask them to sign an early day motion about their concerns.

Bits and bobs about the Canadian science scene: ecology news from Manitoba; Canadian space news; scientists in residence in BC

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In the last ten days, I’ve gotten news of three Canadian science blogs and a scientist in residence program in Vancouver, British Columbia, Canada.

Andy Park, Associate Professor of Forest Ecology at the University of Winnipeg (Manitoba), writes the ‘It’s the Ecology, Stupid!;  A grumpy professor tells you what he really thinks about environmental issues in Canada’ blog. From his About page,

As you’d quickly find out if you met me, I was not born in Canada.  I moved here from the UK in 1988, having previously taken refuge from Thatcher’s Britain in Saudi Arabia for several years.

Since that time, I have finished an undergraduate degree at Simon Fraser University, worked as a forestry consultant in northern British Columbia, acquired a PhD, lived in Vancouver, Toronto, Montreal, and of course, Winnipeg, and travelled extensively within Canada from Tadousak to the McKenzie Delta.

Allied to my academic qualifications, I believe that these experiences make me at least somewhat qualified to comment on Canadian environmental issues.

Here’s a sample from Park’s June 7, 2012 posting (Note: I have removed links.],

You would have to have been living under a rock over the last couple of weeks not to have heard of the federal government’s decision to withdraw funding for Canada’s world-renowned Experimental Lakes Area (ELA).  Research emerging from this network of 58 small lakes in northwest Ontario has helped to clean up Lake Erie (see Figure 1), saved municipalities millions of dollars on the design of sewage plants, and shed light on the ecological pathways by which acid rain harms lakes.

The imminent closure of the ELA has not gone unnoticed internationally, and threatens to add another twist to the death spiral of Canada’s environmental reputation.

Water experts from around the world have weighed in to condemn the closure, and a who’s who of leading aquatic experts have written an open letter to Steven Harper requesting that he reverse the closure.

(I mentioned the ELA in a May 3 2012 posting about a major three-year project (starting in 2012) to study silver nanoparticles and their impact in the ELA ecosystem.)

Welcome to Andy Park and his lively blog!

Chuck Black contacted me about his two blogs both focused on outer space. There’s ‘Commercial Space‘ which is subtitled,  Focused on Canadian money making activities high above the skies… From the About this Blog page,

Businesses operating space related ventures have been commercially viable since at least the 1960’s, when the first Early Bird satellite was successfully launched into geosynchronous orbit according to David M. Livingston in his paper, Space: The Final Financial Frontier.

And Canadian companies have always been leaders in this area, beginning with the launch of the Allouette and Anik satellites and moving forward from there.

 

In fact, it’s got to the point where former Cabinet Minister Jim Prentice went so far as to say that “Canada has more than 200 firms that are involved in space” employing thousands of skilled workers who know that “working in space or working in the space-based industries is just another career option.”

This blog will focus on those industries, the partnerships developed to maintain and grow them and the politics surrounding those partnerships.

And perhaps somewhere along the line, we’ll even get around to discussing the next big opportunity to make some money.

The June 9, 2012 posting features the cancellation of a long-running high school science contest (Note: I have removed links from the excerpt),

The University of Toronto Space Design Contest (UTSDC), will not be holding a competition in 2012 and seems unlikely to be revived anytime soon.

The contest was an independent, student run organization operating out of the Faculty of Applied Science and Engineering at the University of Toronto and held annual competitions from 2004 until 2011 for high school students to solve challenging space-related science and technology problems.

But the contest website hasn’t been updated since last years results were posted in May 2011, the contact form for the website is “offline” and inquiries to the University of Toronto Faculty of Applied Science and Engineering (which links from the UTSDC for contest “donations“) have gone unanswered.

Black’s second blog is called Space Conference News, from the About this Blog page (Note: I have removed a link from the excerpt),

Approximately 14,000 government and private organizations are considered as part of the international space systems industry, according to the 2011 Space Report.

Theses organizations generated $276.52 Billion USD last year and employ over 300,000 people throughout the world

But this industry is notoriously lacking in collaboration or cohesion and is composed primarily of narrow silo’s of skills distributed widely across political boundaries which possess little interconnectedness.

This is a shame, since these organizations need to connect with each other (and to students who will eventually become their future employees) in order to fill in knowledge gaps, develop useful contacts and present current proposals or provisional scientific findings for peer review.

So pretty much everyone is going to eventually end up needing to attend one or more of the 1000+ yearly conferences that have grown up over the last 20 years to cater to the people and organizations involved in this industry.

Black’s May 13, 2012 posting provides a listing of space-related events in June 2012. As for Chuck Black himself, here’s a description from the Space Conference News About the Author page (Note: I have removed links from the excerpt),

I’m a writer, “sales rainmaker,” aerospace pundit and the Treasurer of the Canadian Space Commerce Association (CSCA).

My background is cold calling “C” level executives, networking to build industry specific expertise and developing options for the building of long-term profitable sales relationships in situations with multiple key decision makers.

I also have a background in conference organizing, sponsorship and management. If you’d like to see some of my recent events, check out the National Conferences and Bimonthly Meetings sections of the CSCA website.

I write the Space Conference News website (which tracks upcoming international space science and engineering conferences) and the Commercial Space Blog (which focuses on the Canadian space systems industry).

My last item is about the Scientist in Residence Program in British Columbia. From the About page,

Based in Vancouver, British Columbia, the Scientist in Residence Program excites, inspires and supports elementary school children and teachers to discover the world through hands-on science. Scientists collaborate with teachers throughout the school year and engage children in the process of science through six or more visits in classrooms and on field trips. Through these direct interactions, scientists are positive role models, teachers enhance their comfort and abilities to teach science, and students develop positive attitudes and have fun while they learn about diverse aspects of science. Children gain skills such as keen observation, critical thinking, and thoughtful communication. These are essential life skills as well as science skills.

Paige Axelrood, Ph.D., is the Founder and Managing Director of the Scientist in Residence Program. Catriona Gordon, M.Sc., is the Assistant Program Manager of the Scientist in Residence Program. They collaborate with Valerie Overgaard, Ph.D., Associate Superintendent of Learning Services, and others at the Vancouver Board of Education to deliver the Program to Vancouver schools. Since 2004, 114 teachers, 20 scientists in residence, and more than more than 2700 students in kindergarten through grade 7 have participated in the Program at 37 elementary schools in the Vancouver School District, plus one elementary school in the West Vancouver School District.

The scientists in residence have M.Sc. or Ph.D. degrees in fields including botany, plant pathology, environmental sciences, fish physiology, marine biology and deep sea ecology, cell biology and medical genetics, human biology, physics, and electrical engineering. The scientists are researchers, instructors, project managers, and consultants. Many of them have had some affiliation with the University of British Columbia.

Scientists and teachers, together or separately, can apply to participate in the program. You can find forms and additional information here.

Trent University (Ontario, Canada) and nanosilver toxicology studies

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One of the scientists on a research team at Trent University (Ontario, Canada) is claiming that safety questions about nanomaterials are not being asked and so the team is embarking on a study of silver nanoparticles and their impact on a lake ecosystem. From the May 2, 2012 news item on Nanowerk,

Dr. Chris Metcalfe, professor and director of the Institute for Watershed Science at Trent University, is the principal investigator on the Lake Ecosystem Nanosilver (LENS) project with Trent researchers, Drs. Maggie Xenopoulos, Holger Hintelmann and Paul Frost, and colleagues from Fisheries and Oceans Canada and Environment Canada.

“This is a high profile project that will have the eyes of the scientific community on Trent,” said Professor Metcalfe. “We’re fortunate that we have four world-class researchers on our team.” Over the past decade, tiny substances called nanomaterials have become part of our daily lives.

It’s possible that the clothes you’re wearing, or the sunscreen you just applied, contain nanomaterials. Because of this growing use, there is now concern that nanomaterials may pose threats to the environment.

“We have seen an exponential growth in the use of nanomaterials,” said Professor Xenopoulos, an associate professor in the Biology department at Trent University. “However, questions of safety are not being asked.” [emphasis mine]

Likely the claim is a little overenthusiasm or a lack of clarity on the speaker’s part since there has been more than one study about nanosilver particles and safety, including one at Purdue University mentioned in a March 4, 2010 posting on the Beyond Pesticides blog. The Purdue study (The effects of silver nanoparticles on fathead minnow (Pimephales promelas) embryos) is behind a paywall.

Here’s a bit more about silver nanoparticles and the LENS study,

While the benefits of nanomaterials are recognized, we know little about their risks to health and the environment. Due to their extremely small size, nanomaterials interact with cells and organic molecules, raising questions about their impact on organisms.

Due to their antibacterial properties, nanosilver particles are among the most widely-used nanomaterials in consumer goods. Clothing, home appliances, paint, bandages and food storage containers are a few of the products which may contain nanosilver. As we use and dispose of these products, there is a risk that nanosilvers will travel through our municipal water systems into our lakes and rivers.

The research team is working to understand the effect of nanosilver particles on the aquatic environment. Initial laboratory research conducted at Trent indicates that nanosilver can strongly affect aquatic organisms at the bottom of the food chain, such as bacteria, algae and zooplankton.

To further examine these effects in a real ecosystem, the team is conducting a study at the Experimental Lakes Area, near Kenora, in northwestern Ontario.

The LENS project will monitor changes in a lake’s ecosystem that occur after the addition of nanosilver. It will follow nanosilver as it travels through the lake ecosystem, track effects through the entire food web, and determine how resulting changes alter ecosystem function.

There’s more about the LENS project on the Trent University LENS (Lake Ecosystem Nanosilver) Project page (excerpt),

Our previous laboratory research has shown that nanosilver in the aquatic environment first affect organisms at the bottom of the food chain, including bacteria, algae and zooplankton. These responses may have devastating effects upon aquatic ecosystems by reducing overall productivity and altering the cycling of nutrients, such as carbon, nitrogen and phosphorus. There may be compensatory mechanisms within aquatic ecosystems that can mitigate these responses, but it is impossible to predict these responses using laboratory studies. Through support from the Strategic Grants Program of the Natural Sciences and Engineering Research Council of Canada and Environment Canada, a team of researchers from Trent University, Environment Canada and Fisheries and Oceans Canada will conduct a study at the Experimental Lakes Area (ELA) in northwestern Ontario by adding nanoform silver to a small lake over two summer field seasons ion 2013-14. During nano-silver additions, we will monitor the lake for changes to nutrient cycling and the biological effects within the entire food chain. However, in 2012, before starting the lake additions, we will refine our approach by determining what happens in mesocosms (i.e. plastic tubes) that are deployed in lakes. ELA has been used for over 40 years as a living laboratory to study the effects of pollutants in the environment, including past studies of the impacts of pollution from phosphorus, acid deposition, mercury and endocrine disruptors. These studies have resulted in policies to reduce the impacts of pollution. While we do not take lightly the impact that this study will have upon a lake in ELA, this approach is the only way to determine ecosystem level impacts and to influence regulatory policy regarding the ecological risks of NMs.

This is a three-year project, which starts this year (2012).