New York State IPM Program

May 4, 2017
by Joellen Lampman
Comments Off on Stop Pests in Housing IPM Conference — Bed Bugs, Cockroaches and Mice, Oh My

Stop Pests in Housing IPM Conference — Bed Bugs, Cockroaches and Mice, Oh My

“An investment in knowledge pays the best interest.” –  Benjamin Franklin

Do you work with public housing? Inevitably, pest issues come up. Knowing how to prevent problems and what to do when an issue arises can help save time and money while reducing human health risks. The May 31st “Stop Pests in Housing Conference” at the Century House in Latham, NY, will provide you with the information you need.

Join speakers renowned for their expertise as they address the big three pests: bed bugs, cockroaches, and mice.

Registration is free but pre-registration is required. Coffee and lunch are provided. Click here to register.

This workshop is a part of the “Stop Pests in Housing Project:  Enabling Residents to Live Pest Free and Housing Managers to Implement Integrated Pest Management.” It’s targeted to public housing managers, public works staff, maintenance staff, social workers, resident coordinators, Extension educators, and pest management professionals.

Agenda
8:15-8:45 Coffee. Pick up registration materials. Sign up for DEC credits.
8:45-9:00 Introduction – Susannah Reese, StopPests in Housing, Northeastern IPM Center
9:00-10:00 IPM for Bed Bugs in Multifamily Housing – Changlu Wang, PhD, Rutgers University
10:00-10:15 BREAK
10:15-11:15 How to Avoid Getting and Spreading Bed Bugs – Jody Gangloff-Kaufmann, PhD, NYS IPM Program
11:15-12:15 Monitoring and Management of German Cockroaches in Multifamily Housing – Changlu Wang, PhD, Rutgers University
12:15-1:00 LUNCH
1:00-2:00 Managing Mice in Multifamily Housing – Robert Corrigan, PhD, RMC Consulting, Inc.
2:00-3:00 One Time Treatments and Pest Exclusion to Reduce Pest Allergens – Gil Bloom, ACE, Standard Pest Management
3:00-3:15 BREAK
3:15-4:15 The People Side of Pest Management – Allie Allen, BCE, National Pest Management Association
4:15-4:30 Evaluation and wrap up – Matthew Frye, PhD, NYS IPM Program
4:30 Adjourn. Safe travels!

DEC Pesticide recertification credits available – 6.0 for categories 7a, 8 and 10.

Questions? Contact Joellen Lampman at jkz6@cornell.edu.

 

February 14, 2017
by Mary M. Woodsen
Comments Off on Rat czar Robert (Bobby) Corrigan earns IPM award

Rat czar Robert (Bobby) Corrigan earns IPM award

For Robert Corrigan the moment was pivotal. Enchanted from childhood by the story of iconic oceanographer Jacques-Yves Cousteau, Corrigan enrolled at the State University of New York at Farmingdale with one dream: to be the next Cousteau. That changed the day biology professor Austin Frishman was a substitute teacher. So riveting was that one class that Corrigan immediately switched majors to Frishman’s specialty — pest management.

Pest management on a par with oceanography? Metaphorically, yes — for pests inhabit unseen worlds of their own. Corrigan had stumbled into a vocation that’s earned him accolades wherever pests and people collide.

Grates aren’t so great at keeping rats out if a hole has rusted through.

Now for his unparalleled integrity and expertise, Corrigan has earned an Excellence in IPM award from the New York State Integrated Pest Management Program (NYS IPM) at Cornell University.

NYS IPM’s Matt Frye says Corrigan was pivotal to his own life. “Bobby inspired me to pursue pest management as a passion, not just a livelihood,” Frye says. “I’m not alone. If you’re in roomful of pest management pros when Bobby speaks, and you see light bulbs blinking on all over the place, you get a feel for the impact he has had — not just in New York, but around the world.”

Corrigan is best known for his work with rats, and it’s no wonder. “Bobby’s Rodent Academy is a golden experience, an epiphany of information,” says Gil Bloom, Director of Public Affairs at the New York Pest Management Association. “That he gives out his email to his students is a risky gambit few would take. But this is the man.”

On the surface, Corrigan’s approach is simplicity itself. Keep parks, building foundations, alleyways and streets (not to mention kitchens) clear of all dropped or discarded food scraps, and you’ll put a serious dent in how many rat complaints you get. Daunting, perhaps, but doable.

In his work with the New York City Department of Health, Corrigan took the time to really listen to people, says Caroline Bragdon, director of Neighborhood Interventions. “His greatest achievement was integrating the people management part. He was so graceful in sewing together the layers of our bureaucracy to create a working, science-based program.”

Now Corrigan, a founding member of the Scientific Coalition On Pest Exclusion (SCOPE 2020), brings decades of field experience and data to the cause. “Bobby’s breadth and depth of knowledge are key to crafting promising new ways to prevent pests from taking refuge in buildings and public places,” says Jody Gangloff-Kaufmann, chair of SCOPE and coordinator of Community IPM with the NYS IPM Program. “Once these methods are in place, we can say goodbye to chronic pest infestations.”

“Bobby is young to be a legend, but it’s true,” says Jennifer Grant, director of the NYS IPM Program. “From rats to roaches, he’s an expert at preventing, excluding and removing urban pests. He knows the community is key to success, so he involves everyone along the way—always the consummate teacher.”

Corrigan received his award at the Food Processing Sanitation and Pest Management Workshop on February 7 in Rochester, New York.

 

August 24, 2016
by Matt Frye
Comments Off on Fighting Waterbugs — with Water

Fighting Waterbugs — with Water

Plumbing issues lead to pest problems — there’s little doubt about that. Leaks offer standing water to rodents, and clogged, scummy drains are breeding sites for flies. How curious that one of the most common plumbing-related pest problems I see is drains and pipes without water.

Unused, uncapped drains are an open door for cockroaches and more.

Unused, uncapped drains are an open door for cockroaches and more.

Case Study
At a multi-story office building, workers reported the presence of waterbugs, aka American cockroaches, on unconnected floors. Sanitation at the site was great, and no obvious leak created harborage for cockroaches: both excellent IPM practices. But a thorough inspection uncovered an unused bathroom on one floor where the water had been shut off during renovation. Not only could we smell sewer gasses — this bathroom contained several dead American cockroaches, suggesting this was the source for that floor. On another floor a drainpipe in a mop closet was open, and we could see cockroach frass.

A drain trap — and never mind the large gap at the wall. Exclusion is an entirely different topic.

A drain trap — and never mind the large gap at the wall. Exclusion is a whole different matter.

Plumbing Traps 101
If you’ve ever looked under a  sink, you’re familiar with a plumbing trap: that U-shaped pipe that changes the flow of water from vertical to horizontal. Its job: to create a water seal that prevents odors and harmful sewer gasses from escaping into the living or work space. Each time the drain is used, fresh water replaces standing water in the trap to maintain a permanent seal.

Uncapped and unused.

Uncapped, unused — except as a highway for pests.

As side benefit, this design deters pests from using pipes to move within or between buildings. Sure, cockroaches and rodents (especially rats) can overcome plumbing traps by crawling through a small amount of water (see National Geographic video on rats in toilets). But when drains are regularly used, they’re unlikely to harbor pests.

Drain Fails
Problems with trap seals occur when drains are infrequently used and water evaporates over time, or if drains are clogged with debris. Floor drains are susceptible to drying out if

  • no one wet-mops the floors
  • they’re in production areas with lots of small spilled items or
  • they’re near a deep fryer
Water cannot penetrate drain grates clogged with dirt and debris. This drain should be cleaned (drain brush or shop vacuum) and flushed with water.

Water can’t penetrate clogged drains. Clean (drain brush or shop vacuum) and flush with water.

Inspection Tips and Solutions
Another core IPM practice: owners or facilities maintenance personnel need to check drains often to verify that water is present in the trap. Check them each time floors are cleaned. For traps that have dried out the solution is easy – pour water down the drain until the trap is full. While you’re at it, make sure that drains are clear of debris. If the pipe is cut and no longer used, cap the end for a permanent seal.

August 16, 2016
by Matt Frye
Comments Off on Ultrasonic Devices? Ultra-Ineffective

Ultrasonic Devices? Ultra-Ineffective

Sometimes I get questions about using ultrasonic devices for coping with pests. “Mrs. Jones uses them and she never sees a mouse!” is often how it goes. I understand the appeal: plug in this thing and my problem is solved. Sure! They also have great marketing campaign: this device will emit a sound you can’t hear that scares or annoys pests — forcing them to leave.

If it seems too good to be true, it probably is.

Cute, but ... wrong place, wrong time.

Cute, but … wrong place, wrong time.

History Lesson
The concept of using sound or vibration to deter pests was invented long before electricity. Ancient civilizations might well have used wind and water-powered devices to create vibration, movement or sound to ward off pests. And the concept of ultrasound as deterrent? Well, that might be based on the observation that some insects such as moths and crickets avoid high frequencies that mimic bat predators; similarly, certain sounds could distress rodents.

The Science
This theoretical frameworks aside, there’s no proof that ultrasonic devices really deter pests. In fact, scientific evaluations of ultrasonic devices have found no effect on target pests: German cockroaches, bed bugs and rodents. (See Literature section below.) In some cases, the frequency and intensity manufacturers claim don’t match up with actual output. Not only that, but some devices exceed limits imposed by the Occupational Safety and Health Act (OSHA) for human tolerance of sound exposure.

Can this really repel all of the above? Think twice before you invest.

Can this really repel all of the above? Think twice before you invest.

What Does Work?
So why doesn’t Mrs. Jones have mice? Well, prevention is cardinal to good IPM, and perhaps her house is well constructed and sealed against outdoor pest invasions. Or perhaps she keeps a clean home with no spilled food or water. Again, prevention is numero uno in IPM.

If a pest did invade her home, her best chance at management would involve eliminating access to food, water and shelter, then reducing the pest population by trapping or baiting. Again, core IPM.

Next time you’re dealing with a pest problem, figure out why they’re there and address that issue. Consult our IPM pest fact sheets to guide your way. And put away those ineffective ultrasonic devices.

Selected Literature

  • Bomford, M, & PH O’Brien. 1990. Sonic Deterrents in Animal Damage Control: A Review of the Device Tests and Effectiveness. Wildlife Society Bulletin 18(4): 411-422.
  • Gold, RE, TN Decker, & AD Vance. 1990. Acoustical Characterization and Efficacy Evaluation of Ultrasonic Pest Control Devices Marketed for Control of German Cockroaches (Orthoptera: Blattellidae). Journal of Economic Entomology 77: 1507-1512.
  • Koehler, PG, RS Patterson, & JC Webb. 1986. Efficacy of Ultrasound for German Cockroach (Orthoptera: Blattellidae) and Oriental Rat Flea (Siphonoptera: Pulicidae) Control. Journal of Economic Entomology 79: 1027-1031.
  • Shumake, SA. 1997. Electronic Rodent Repellent Devices: A Review of Efficacy Test Protocols and Regulatory Actions. In (ed.) JR Mason: Repellents in Wildlife Management (August 8-10, 1995, Denver, CO). USDA, National Wildlife Research Center, Fort Collins, CO.
  • Yturralde, KM, & RW Hofstetter. 2012. Efficacy of Commercially Available Ultrasonic Pest Repellent Devices to Affect Behavior of Bed Bugs (Hemiptera: Cimicidae). Journal of Economic Entomology 105(6): 2107-2114.

 

February 24, 2016
by Mary M. Woodsen
Comments Off on Every Season Is Tick Season

Every Season Is Tick Season

At IPM we call it the black-legged tick because that’s its true name. Yet most people in North America — perhaps even you, dear reader — call it the deer tick. A name with curious stories to tell.

But first the commercial: every season is tick season. Impervious to all but the most bitter cold, ticks take shelter in the leaf litter in gardens and woods. Whenever it gets a little above freezing, they crawl out and up. Any adults that failed to find a host earlier in winter or fall scramble into knee-high vegetation. (Females need a blood meal before they can lay eggs.) There they wait patiently for some critter to brush against whatever stalk they’re clinging to, and when it does — they grab hold.

Courtesy of TickEncounter at the University of Rhode Island, this image shows all the life-cycle info you need to know.

Courtesy of TickEncounter at the University of Rhode Island, this image shows all the life-cycle info you need to know.

Even during this fickle February of 2016, when many places south of the Adirondacks have repeatedly lost their snow cover, leaving the barren ground to freeze hard, those ticks keep ticking along. Yes, many die. But many remain. On lovely sunshiny days when you wander outside to shake off a bout of cabin fever, be sure to dress right to keep ticks off you.

And having done that, relentlessly check yourself for ticks when you get inside.

Now back to our story. That name — deer tick — suggests that deer carry Lyme disease. If you’ve had a bout with Lyme or any of the less-than-pleasant co-infections that black-legged ticks also vector, just thinking of Bambi could give you the chills. But while deer assuredly spread ticks far and wide, they don’t vector Lyme. Which means a tick that is Lyme-free won’t pick up the Lyme pathogen from a deer.

The buck stops there.

Verdant summer meadows? Come winter, the ticks are still there.

Verdant summer meadows? Stay vigilant. It’s too easy to pick up tiny, hard to see nymphs  — ones already vectoring Lyme.

The critters that most commonly carry Lyme disease — notably mice, but also shrews and chipmunks — assuredly do get Lyme disease. But odd as it seems, it doesn’t knock them out. Instead they just keep chugging along, doing their mouse or shrew or chipmunk thing. Which includes transmitting the Lyme pathogen to ticks throughout their life cycle. Ticks that grow larger and larger. Ticks that eventually — instead of hanging out low to the ground where the mice are — become large enough to scramble into knee-high vegetation where they’re yet more likely to land on some hapless human. Or dog, raccoon, fox, coyote, skunk, cat, sheep, a ground-nesting bird, cow, horse … the list goes on.

Some, like deer and probably other wild animals, don’t get particularly ill — though it’s not been closely studied. But dogs, horses, and humans (less likely, cats) can get knocked for a loop. Even so, we likewise don’t transmit Lyme; the tick would already need to be infected. The buck stops there.

The next commercial: about that tick that snuck aboard during your post-lunch walk in the curiously warm February sun … you might not have as much time to deal with it as once was thought. Sure, in some cases it’ll be 24 to 48 hours before that tick starts transmitting Lyme. And not every tick carries Lyme or other diseases.

But still, better safe than sorry. Because recent research suggests: as you sit down to dinner that tick might already be dining too, but with consequences you don’t want to bear. Knowing that, relentlessly check yourself for ticks when you get inside. And even if you don’t care for school grounds or a summer camp, this IPM fact sheet is rich with useful information.

Many thanks to Rick Ostfeld (Senior Scientist, Cary Institute of Ecosystem Studies) and Joellen Lampman (Turfgrass Specialist, NYS IPM).

October 1, 2015
by Matt Frye
Comments Off on If you’re not monitoring, you’re not performing IPM.

If you’re not monitoring, you’re not performing IPM.

Why? To start, let’s consider the distinction between an inspection and monitoring. An inspection is a view of pest activity at that moment in time. But what if pests are only active at night? Or on weekends when the building is quiet? Thus, monitoring is a record of pest activity in the times that you are not present.

Integrated Pest Management, or IPM, is a decision making process that uses information about pest populations to decide how to manage them. Monitoring is a critical step in IPM programs that offers valuable insights:

1. Species Identification: insect monitors intercept pests, allowing a trained professional to identify them. In turn, identification provides information about preferred harborage, food and water sources.

2. Early Detection: monitors can intercept pests that are present at low levels, and can help identify a problem before it gets out of hand.

3. Directionality: monitors can provide information about pest directionality: where are they coming from [harborage] and where they are going [food locations]. Monitors might also provide clues about non-obvious pathways, such as overhead areas (Figure 1).

DSCN1004

Fig. 1. This firebrat likely fell onto the monitor from above.

4. Age of Population: rodent bait stations can contain informative evidence (Figure 2). Are droppings all one size, or are they mixed sizes, suggesting the presence of different age groups? Are droppings black, meaning that they are visiting the station for the first time, or are some droppings the color of the bait, suggesting multiple feedings?

2011.2.23 (2)

Fig. 2. Mixed large and small droppings suggest adult and juvenile feeding; mostly black droppings suggest this is the rodents first feeding.

Parasitoids, predators and secondary pests can also tell you about the age of the infestation (Figure 3). Ensign wasps are egg-case parasitoids of American cockroaches. Their presence suggests that the cockroaches are actively reproducing nearby, whereas secondary pests may indicate the presence of old bait or pest carcasses.

Image 1 copy

Fig. 3. An Ensign wasp (egg-case parasitoid, 1), adult and juvenile (2) American cockroaches, and a spider beetle.

5. Proximity to Harborage: juvenile pests, including rodents and cockroaches, stay close the harborage. Intercepting them on monitors can narrow your search to nearby areas for identifying the harborage (Figure 4).

6. Management Efforts: some monitors might contain evidence about recent control efforts (Figure 4). Finding German cockroaches with crinkled wings is a sign that they have been treated with an insect growth regulator. But what if you didn’t apply this kind of product? Perhaps the cockroaches are coming from a neighboring area.

IMG_3168

Fig. 4. Nymph (1) and adult (2) German cockroaches on an insect monitor. The arrow indicates the location of crinkled wings from treatment with an insect growth regulator.

Effective monitoring programs provide good coverage of pest vulnerable areas. The location of monitoring devices are recorded on a facility map, and a pest catch log records the number of pests caught on each monitor. These specifications allow the pest professional to collect enough information to determine if a treatment is needed, where to focus efforts and what treatment should be applied.

September 1, 2015
by Lynn A. Braband
Comments Off on Everything Wants to Prepare for Winter

Everything Wants to Prepare for Winter

squirrel

A Gray Squirrel checks out a possible winter home.

Although summer heat is predicted for New York State through at least the Labor Day weekend, signs of the inevitable change of seasons are upon us. The daylight hours are becoming shorter, territorial singing by birds has decreased greatly, and many animals, including tree squirrels, begin preparing for the long, cold months of winter. In addition to their well-known behavior of caching nuts during autumn, squirrels look for protective sites for over-wintering. Often, these locations include the attics and walls of houses and other buildings. It is not unusual to have 8, 10, or more squirrels over-wintering in a building. Structural damage caused by the animals’ chewing can be significant. There is also the possibility of infestations of parasites associated with the animals, and at least the potential risk of disease transmission.

As with the management of any pest situation, prevention is preferred over seeking to rectify a well-established problem. For squirrels, this would include an inspection of the building exterior looking for potential entry sites and routes of access. August and early September are optimum times for inspecting. This is ladder work so safety is a very important consideration. Consult ladder safety sites such as the American Ladder Institute.

Cage trapping is a common tactic of many homeowners and businesses in seeking to rectify a squirrel or other wild animal problem. The animals are then transported off-site. However, this is illegal in New York State, and many other places, without a state-issued permit. Read Dealing With Wildlife and the New York Laws That Protect Them for a synopsis of the legal framework for dealing with nuisance wildlife.

Individuals who operate under such a permit are referred to as Nuisance Wildlife Control Operators or, simply, Wildlife Control Operators. These individuals have passed a comprehensive exam on solving wildlife problems and have the experience and equipment to address nuisance wildlife and wildlife damage situations. For names of permit holders, contact your regional office of the New York State Department of Environmental Conservation. Another source is the NYS Wildlife Management Association, the state trade group for wildlife control operators.

For more information on dealing with squirrel issues, see:

Controlling Squirrel Problems in Buildings

Wildlife Damage Management Fact Sheets: Tree Squirrels

August 18, 2015
by Matt Frye
Comments Off on Trap Failure or Human Failure?

Trap Failure or Human Failure?

When preparing for any job, my dad will remind me to choose the right tool for the task. In a way, this is an extension of another one of his gems: work smarter, not harder. Selecting the right tool can increase your efficiency and help you to get the job done correctly. Time and again I have reaped the benefits of this wisdom.

On a recent inspection of a food service establishment, management informed me that they had seen a small rat in the service hallway. Traps had been placed by the pest professional, but as of yet, the stealthy rat had not been caught. My interest was piqued.

DSCN1296

Tripped trap with piece of rodent tail

In the hallway I found that several rat snap traps had been baited and placed along the wall where the rat had been observed. One trap had been tripped, and actually had a small piece of the rodent’s tail attached, which seemed rather odd. How would a rat trigger the trap and get only its tail caught? That is when the real detective work started.

 

DSCN1300

Teeth marks in bait on snap trap: pairs of teeth 1-2 mm wide suggest feeding by mice.

No droppings were present along this runway to help with identification, but the now short-tailed rodent had fed on the bait, leaving behind impressions of its teeth. I pulled out my ruler and found that the pair of teeth were less than 2mm wide, which is suggestive of mice. Indeed, mice tend to leave impressions that are 1 to 2mm wide, while a pair of teeth for rats tends to be 3.5 to 4mm wide. Now the pieces of this mystery were adding up. A small rat was not the culprit, but rather a mouse. The traps had not been effective (except for taking off a piece of tail) because mice are unlikely to exert enough force on the trigger to engage a rat trap. So, what is the right tool for this task? You guessed it, a mouse trap!

Did you know…

The term rodent (the group that includes mice, rats and their relatives) is a derivative of the Latin word rodere, which means “to gnaw.” Rodents gnaw on objects to obtain resources, in the process wearing down their teeth. In fact, rat teeth grow approximately 5 inches per year, and are kept short by their gnawing behavior or by grinding their teeth.

IMG_7456

For more information, watch our YouTube video: Signs of a Rodent Infestation

March 17, 2015
by Joellen Lampman
Comments Off on The squirrels are coming, the squirrels are coming!!

The squirrels are coming, the squirrels are coming!!

“Spring work is going on with joyful enthusiasm.” ― John Muir

In other words, birthing season will soon be upon us. And though it’s fun watching animal families grow up in our backyards, it’s best that they don’t give birth within our buildings. Because female squirrels seek safe places to raise their young in late winter and early spring, now is the time to ensure they stay out of your attic.

Photo credit: Carosaurus

Give them an opening and squirrels will happily turn your attic into a nursery. Photo credit: Carosaurus

 

Your first step? Monitoring is key to sound IPM. In this case you want to inspect your building exterior, especially if you’ve had problems in the past. Since squirrels are climbing animals and there’s no way could you see all possible entry sites from the ground, you’ll need a ladder. If you find a likely entry hole, don’t close it without first determining if it’s active. Trapping an animal (or its nest) inside can provoke it to chew its way back out — or in. Monitor an opening by inserting a soft plug (crumpled newspaper works fine) into the hole. If the plug is still there after two days and you see no other signs of activity inside the building, it should be safe to permanently close the hole. What to close it with? Think galvanized sheet metal or galvanized metal mesh, which resist strong teeth.

Do you need to remove squirrels from the building? Trapping is the most common and successful method. By New York law, however, without a state-issued permit squirrels must be released on the property or humanely destroyed. Another method is to install one-way doors (also known as excluders) over entry holes. These devices allow animals to leave — but not re-enter — the structure. To be successful, one-way doors need to be combined with preventive exclusion (such as metal mesh and caulk) on other vulnerable sites on your building, since exclusion and prevention are also key IPM practices.

Photo credit: BillSmith_03303

Openings such as this one provide access for squirrels, raccoons, mice, rats, birds, stinging insects, bats, snakes, … Photo credit: BillSmith_03303

 

No rodenticides or other poisons are legally registered for squirrel control. Although a variety of repellents and devices make marketing claims about driving squirrels from buildings, their efficacy is questionable.

To prevent future problems, reduce squirrel access to the building by keeping trees and tree branches at least 10 feet away from the structure and make sure all vents are made of animal-resistant materials.

For information on IPM for nuisance wildlife, refer to Beasts Begone!: A Practitioner’s Guide to IPM in Buildings  and Best Practices for Nuisance Wildlife Control Operators.

(Adapted from Controlling Squirrel Problems in Buildings by Lynn Braband, NYS Community IPM Program at Cornell University)

March 10, 2015
by Mary M. Woodsen
Comments Off on Rats, Fleas, the Media … Part II

Rats, Fleas, the Media … Part II

When Cornell’s NYS IPM story — based on IPM entomologist Matt Frye’s research — hit the news a week ago, it made quite a splash. Back then, nearly 20 media outlets told the story: how Frye found over 6,500 lice, mites, and fleas on 113 rats live-trapped in New York City.

And — that among them were over 500 Oriental rat fleas, fleas capable of carrying the infamous bubonic plague. No, none of those 500 fleas harbored the plague. Still — “If these rats carry fleas that could transmit the plague to people,” says Frye, “then the pathogen itself is the only piece missing from the transmission cycle.”

Below, an updated list of the outlets that ran the news. Now the BBC — the British Broadcasting Corporation — also has plans to tell the story. And here, a one-minute video that shows how city rats make a living.

CBS News Cornell Chronicle
Daily Mail (UK) The Dodo
ESA (Entomological Soc. America) Fox News
Gothamist  The Independent (UK)
International Business Times  Jezebel
 Medical Daily  Metro New York
 NBC News  Newsweek
 New York Daily News  Popular Science
 RT (Reuters/Krishnendu Halder)  Science World Report
 University of Delaware  US News and World Report
 The Verge  Wired
 WPIX NY | PIX11  Yahoo Health

 

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