Exploring the complexities of using ladybugs as pest control

The convergent ladybug, left, and the harlequin ladybug, right, share many behavioral and life history trains, but one is deemed a weapon in the war on insects and the other the target. RIT assistant professor Kaitlin Stack Whitney uses this example to underscore how human choices are the driving force behind what is considered a pest, not nature.
Photo Credit: left: Flickr user Dru!, CC BY-NC 2.0.
Photo Credit right: Flickr user The Real Estreya, CC BY-NC-SA 2.0

When creating a garden, it’s likely that most people want to make decisions that leave a positive footprint on the local environment. In an attempt to limit the use of chemical pesticides and promote native species on their land, some gardeners have begun purchasing ladybugs as a form of “natural” pest control. However, Kaitlin Stack Whitney, assistant professor in Rochester Institute of Technology’s Department of Science, Technology, and Society, says that buying ladybugs online, as opposed to attracting them naturally, can cause more harm than good to the environment.

In a recent publication in Catalyst Journal, Stack Whitney discussed the morality around employing ladybugs in a war on insect pests, as well as the nuance around which insects are considered “good” or “bad” by the general public.

“Ladybugs make up the insect family Coccinellidae. There are many different kinds of ladybug, but there are a lot of things that all ladybugs do, such as eating soft-bodied insects like aphids and other garden pests,” said Stack Whitney. “How we think about these ladybugs—which ones we celebrate and which ones we don’t—is really shaped by people’s ideas, not necessarily what the ladybugs are actually doing.”

Reindeer can show great performance at following human-given indications

Photo Credit: Courtesy of University of Turku

An international team of researchers from the University of Turku, Finland, and the INRAE of Nouzilly, France, explored the ability of sledging reindeer to follow directional indications from humans. Their results highlight that reindeer, which are well habituated to humans, can make use of gestural cues very well with minimal training.

Working animals, such as equines, shepherd dogs, and logging elephants, spend a significant amount of time interacting closely with humans to fulfil specific tasks. Effective communication plays a crucial role in their working relationship. Animals' understanding of human cues, particularly manual pointing gestures, is an important aspect of this communication. 

The use of pointing gestures to communicate with others and to show them where to look or to go is very natural for humans. For other animals that do not use this means of communication, the gesture may not always be easy to understand. For this reason, the pointing gesture is often used in experiments to see if animals can understand cues that are specific to humans. 

“Many species, such as dogs, primates, horses, goats or elephants, have already shown great potential at following human gestures, but this has never been investigated in any deer species. “, says the lead author of the study, Doctoral Researcher Océane Liehrmann from the Department of Biology at the University of Turku, Finland. 

Study brings new understanding of multiple myeloma evolution

Elisabet Manasanch, M.D. | Linghua Wang, M.D., Ph.D.
Photo Credit: Courtesy of University of Texas MD Anderson Cancer Center

A new study by researchers at The University of Texas MD Anderson Cancer Center highlights novel insights into the evolution of multiple myeloma from precursor disease, which may help better identify patients likely to progress and develop new interventions.

Published today in Cancer Cell, the study integrates paired single-cell RNA sequencing and B cell receptor sequencing from 64 patients with multiple myeloma or precursor disease. The study achieved several notable milestones in the effort to better understand this evolutionary process and is believed to be the largest cohort of myeloma precursor patient samples analyzed at single-cell resolution.

How multiple myeloma, a deadly and incurable cancer of plasma cells in the bone marrow, evolves from precursor conditions like monoclonal gammopathy of undetermined significance (MGUS) and smoldering multiple myeloma remains largely a mystery. To help solve that mystery, this study was designed by Elisabet Manasanch, M.D., associate professor of Lymphoma/Myeloma, in collaboration with Linghua Wang, M.D., Ph.D., associate professor of Genomic Medicine, and Minghao Dang, Ph.D., postdoctoral fellow in the Wang lab.

“This research is a big step towards understanding the evolutionary roadmap that leads to myeloma,” Wang said. “Additionally, there is a significant clinical unmet need to find and validate novel biomarkers to identify patients at high-risk of progression who would benefit the most from early treatment interventions.”

Climate Change: Rising Rainfall, not Temperatures, Threaten Giraffe Survival

Masai giraffes in Tanzania have lower survival during seasons of heavier rainfall, which is predicted to increase under climate change.
Photo Credit: Mariola Grobelska

Giraffes in the East African savannahs are adapting surprisingly well to the rising temperatures caused by climate change. However, they are threatened by increasingly heavy rainfall, as researchers from the University of Zurich and Pennsylvania State University show.

Climate change is expected to cause widespread declines in wildlife populations worldwide. Yet, little was previously known about the combined climate and human effects on the survival rates not only of giraffes, but of any large African herbivore species. Now researchers from the University of Zurich and Pennsylvania State University have concluded a decade-long study – the largest to date – of a giraffe population in the Tarangire region of Tanzania. The study area spanned more than a thousand square kilometers, including areas inside and outside protected areas. Contrary to expectations, higher temperatures were found to positively affect adult giraffe survival, while rainier wet seasons negatively impacted adult and calf survival.

Cholera bacteria form aggressive biofilm to kill immune cells

The cholera-pathogen Vibrio cholerae (blue) forms an aggressive biofilm on the surface of immune cells (red).
Video Credit: University of Basel, Biozentrum

Bacteria harness the power of communities. A research group at the University of Basel has now discovered that the bacterial pathogen that causes cholera forms a novel type of bacterial community on immune cells: an aggressive biofilm that is lethal for the cells. The study, recently published in the journal Cell, provides new insights into the infection strategies of pathogens.

Many bacteria adopt a fascinating defense strategy by forming communities on surfaces, known as biofilms. We encounter such biofilms in our daily lives, for example, as dental plaque in the mouth, slimy films on stones in water or even as part of our intestinal flora. Bacterial biofilms are intrinsically tolerant to antibiotics and can pose a significant threat in clinical settings when they colonize implants, catheters, or surgical instruments. This colonization enables pathogens to infiltrate our body and trigger infections that are difficult to combat by the immune system and with antibiotics.

Previously, it was assumed that bacteria form biofilms to defend and protect themselves. The research team led by Professor Knut Drescher at the Biozentrum, University of Basel, has now demonstrated, in their recently published “Cell” study, that bacteria form biofilms on the surface of immune cells. This previously unknown type of community differs from already known bacterial biofilms not only in its structure, but also in its function: instead of serving a protective purpose, this biofilm is an aggressive trait.

Gentle cleansers kill viruses as effectively as harsh soaps

Photo Credit: Maria Lin Kim

Gentle cleansers are just as effective in killing viruses – including coronavirus – as harsh soaps, according to a new study from scientists at the University of Sheffield 

Healthcare professionals often substitute alcohol-based hand sanitizers and harsh soaps for skin-friendly cleansers in order to treat or prevent irritant contact dermatitis, which develops when chemical or physical agents damage the skin surface faster than the skin can repair

Incidence and severity of irritant contact dermatitis increased from 20 per cent to 80 per cent amongst healthcare professionals during the Covid-19 pandemic

Researchers also found non-enveloped viruses such as norovirus were resistant to all hand wash products tested, and were only killed with bleach disinfectants, which aren’t a feasible option for washing hands 

Gentle cleansers are just as effective in killing viruses – including coronavirus – as harsh soaps, a new study by University of Sheffield experts has found.

Twenty species of sea lettuce found along the coasts

Sea lettuce, which is a type of green alga, grows along the coasts and is interesting as potential food source. A new survey shows that there are 20 different species of sea lettuce along the Swedish coast.
Photo Credit: Sophie Steinhagen

The number of species of the green alga sea lettuce in the Baltic Sea region and Skagerak and is much larger than what was previously known. Researchers at the University of Gothenburg have surveyed 10,000 kilometers of coast and found twenty species of sea lettuce.

Green macroalgae of the genus Ulva, also known as sea lettuce, are almost ubiquitous in the wider Baltic Sea region and can be found from the Atlantic waters all the way up to the Bay of Bothnia in the Baltic Sea. Sea lettuce reproduces easily and grows quickly, which makes it interesting for an expanding aquaculture industry. Research is ongoing both in Sweden and abroad for utilizing sea lettuce in the food industry and for different biochemical applications.

There are multiple species, but until now it has not been known how many there are and previously only a handful had been identified.

Our visual perception is more rational than we think

Our visual perception adapts flexibly and unconsciously to the decision context when it’s to our advantage.
Photo Credit: Colin Lloyd

Our visual perception depends more strongly on the utility of information than previously thought. This has been demonstrated in a series of experiments conducted by researchers at the Neuroscience Center Zurich. Cognitive biases can begin at the retina.

Are our senses there to provide us with the most complete representation of the world, or do they serve our survival? For a long time, the former was the dominant view in neuroscience. “Was” is the operative word here. In the last 50 years, psychologists such as Nobel Prize winners Daniel Kahnemann and Amos Tversky have shown that human perception is often anything but complete and instead is highly selective.

Experiments have now verified that there is a whole list of examples of cognitive biases. One of the most important is confirmation bias: we often process new information in a way that confirms our beliefs and expectations.

But up until now, researchers haven’t been able to fully explain under what conditions these distortions come into play and when exactly in the perceptual process they begin. A study by researchers led by University of Zurich Professor Todd Hare and ETH Professor Rafael Polania, recently published in the journal Nature Human Behavior, now shows that the brain already adjusts the visual perception of things on the retina when it is in our interest to do so. Or, to put it another way, we unconsciously see things distorted when it comes to our survival, well-being, or other interests.

Study examines role of metabolites in disease treatment

Phillip Owens, PhD
Photo Credit: Andrew Higley/UC Marketing + Brand

Each year, about 200,000 people in the United States are diagnosed with a bulge in the lower part of the aorta, the main artery in the body, called an abdominal aortic aneurysm (AAA).

New research from the University of Cincinnati examines the role a particular metabolite plays in the development of AAA and could lead to the first treatment of the condition.

The research was published in the journal Circulation.

“We started the study by examining whether AAA patients themselves had an increase in trimethylamine N-oxide (TMAO).  We examined an American and Swedish cohort with 354 human samples, and we compared those AAA patients to 1,775 control subjects,” says Phillip Owens, PhD, co-first author of the study along with Tyler Benson, PhD, both of the Division of Cardiovascular Health and Disease in the UC College of Medicine. “We started going into animal models after that, looking at what happens when we feed a high choline diet which leads to higher production of TMAO.”

Choline, found in a variety of foods with the richest sources being meat, fish, poultry, dairy and eggs, is processed into the organic compound TMAO when meat is digested by the bacteria in the gut.

Study reveals how treatment-resistant prostate cancer provides its own hormonal fuel

A new study from Washington University School of Medicine in St. Louis shows how prostate cancer creates its own hormonal fuel supply in response to anti-testosterone therapy. The study further suggests a strategy to block this process and potentially improve therapy options for treatment-resistant prostate cancer. Shown is a thin slice of a human prostate tumor. The dark staining throughout reveals the presence of histone acetylation promoting cholesterol production. Cholesterol is required to make testosterone, which fuels tumor growth.
Image Credit: Nupam Mahajan/School of Medicine

A new study in mice, led by researchers at Washington University School of Medicine in St. Louis, explains how prostate cancer senses a drop in testosterone levels due to common anti-hormone therapy and then begins making cholesterol — a necessary precursor to testosterone — to generate its own testosterone to fuel tumor growth. The study also points to a possible drug combination that may stop the cancer from feeding its own growth.

Healthy prostate cells do not produce testosterone, so the research provides long-sought answers to questions about how prostate cancer cells adapt to testosterone-deprivation therapy, a common therapeutic option, by developing an ability to supply their own hormonal fuel. Further, the research reveals that treating these aggressive prostate tumors with inhibitors that block aspects of the hormonal fuel supply chain slows tumor growth in mice. These findings suggest a novel treatment strategy for prostate cancer that has become resistant to the common anti-testosterone therapy abiraterone.

The study also may help explain why Black men are at higher risk of developing prostate cancer and tend to develop more aggressive forms of the cancer than white men of European ancestry.