Sunday, July 05, 2020

Pet dogs may improve social-emotional development in young children

SPRINGER
A team of researchers at the University of Western Australia and Telethon Kids Institute utilised questionnaire data from 1,646 households that included children aged two to five years. The researchers found that, after taking into account children's age, biological sex, sleep habits, screen time and parents' education levels, children from dog-owning households were 23% less likely to have overall difficulties with their emotions and social interactions than children who did not own a dog. Children from dog-owning households were 30% less likely to engage in antisocial behaviours, 40% less likely to have problems interacting with other children, and were 34% more likely to engage in considerate behaviours, such as sharing.
Associate Professor Hayley Christian, the corresponding author said: "While we expected that dog ownership would provide some benefits for young children's wellbeing, we were surprised that the mere presence of a family dog was associated with many positive behaviours and emotions."
Among children from dog-owning households, those who joined their family on dog walks at least once per week were 36% less likely to have poor social and emotional development than those who walked with their family dog less than once per week. Children who played with their family dog three or more times per week were 74% more likely to regularly engage in considerate behaviours than those who played with their dog less than three times per week.
Associate Professor Hayley Christian said: "Our findings indicate that dog ownership may benefit children's development and wellbeing and we speculate that this could be attributed to the attachment between children and their dogs. Stronger attachments between children and their pets may be reflected in the amount of time spent playing and walking together and this may promote social and emotional development."
To examine children's social and emotional development and its possible association with family dog ownership, the authors analysed data collected between 2015 and 2018 as part of the Play Spaces and Environments for Children's Physical Activity (PLAYCE) study. During the study, parents of children aged between two and five years completed a questionnaire assessing their child's physical activity and social-emotional development. . Out of the 1,646 households included in the study, 686 (42%) owned a dog.
The authors caution that due to the observational nature of the study they were not able to determine the exact mechanism by which dog ownership may benefit social and emotional development in young children, or to establish cause and effect. Further research should assess the potential influence of owning different types of pets or the influence that children's attachment to their pets may have on child development.
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Decontamination methods for reuse of filtering facepiece respirators

NEWS RELEASE 


JAMA OTOLARYNGOLOGY - HEAD & NECK SURGERY

Authors: Brooke M. Su-Velez, M.D., M.P.H., of the University of California, Los Angeles, is the corresponding author.
(doi:10.1001/jamaoto.2020.1423)
Editor's Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflicts of interest and financial disclosures, and funding and support.
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Media advisory: The full study is linked to this news release.

New platform gauges effects of plastic nanoparticles on human development and health

ALPHAMED PRESS
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IMAGE: CORRESPONDING AUTHOR MIODRAG STOJKOVIC, PH.D., DVM. view more 
CREDIT: ALPHAMED PRESS
Durham, NC - Plastic pollution is a critical environmental issue facing the world today, yet the impact of all the microplastics (MPs) and nanoplastics (NPs) that have seeped into the food and beverage supply on human health is an "undervalued avenue of research," according to the team behind a revealing new study released today in STEM CELLS. This study outlines the new platform researchers designed that allowed them to investigate the potentially harmful effects of MPs and NPs. The results show not only how these particles can impact a developing infant's health, but also may open novel ways to study this prevalent type of pollution and its contributions to the origin of various diseases.
From 1950 to now, plastic production has increased nearly 200-fold to the current 350 million tons, according to a study published last June in Science of The Total Environment. As of 2018, approximately 6.9 billion tons had become waste, with 79 percent of that accumulated in the natural environment.
"Assuming that only 15 percent of their total caloric intake is from plastic-packaged nutrients, it was calculated that the average person consumes up to 121,000 MP particles per year, while people who drink bottled water consume an additional 90,000 MP. And these numbers don't account for particulates that enter our bodies through occupational exposure (such as construction, boating or the bath and shower industries) and other means. So you can see this number has the potential to increase substantially," said Miodrag Stojkovic, Ph.D., DVM. Dr. Stojkovic is corresponding author of the international study, led by researchers from the Medical Fertility Hospital, Leskovac, Serbia, and Faculty of Medical Sciences, University of Kragujevac, Serbia, and currently is affiliated with Massachusetts Eye and Ear, Harvard Medical School in Boston.
Few studies have investigated the potentially harmful effects of MPs/NPs on early human development and health. To further complicate things, the plethora of plastic types, particle sizes and the lack of a reliable model makes studying the impact of rising environmental plastic pollution on human health a real challenge.
"Adding to that," Dr. Stojkovic said, "no clear definition or regulation of MPs/NPs exists on an international basis."
All this led Dr. Stojkovic and his colleagues to develop a new platform that would enable them, for the first time, to estimate gene changes and signaling pathways that might be altered in response to the exposure of pre-implantation human embryos and human induced pluripotent stem cells (iPSCs) to plastic particles. They focused their work on nanoparticles shed by one of the most prevalent types of plastics used in food and beverage packaging -- polystyrene.
To begin, they analyzed human iPSC growth media that was persistently exposed to plastic (storage bottles, dishes, pipettes and tips, laboratory air and lab coats) using pyrolysis-gas chromatography/mass spectrometry (PyGC/MS). The PyGC/MS analysis excluded the additional presence of any known polymer. Next, they exposed thawed early human expanded blastocysts and human iPSCs to nano- (40 nm) and micro- (200 nm) polystyrene items and examined the effects. And lastly, the researchers used the HiPathia method -- a model that allows the estimation of how changes in the expression of genes affect signaling circuits and consequent cell functional decisions -- to enable them to detect any disease mechanisms and predict relevant clinical outcomes.
The collective data from these analyses showed that NPs alter genes that are connected to eye development, cardiac malformations and ischemia.
"Taken together, results obtained with our embryo- and stem cell-based platform and polystyrene NPs clearly demonstrate that an understanding of bio-NP interactions and the implications on human health is, more than ever, of utmost importance, especially in this era of increased environmental plastic pollution and the presence of microscopic plastic particles in the air, soil, food, beverages, and tap water," Dr. Stojkovic said. "We also believe that the study findings make a strong call for an urgent action by scientific and policymaking authorities to create regulatory measures that might lessen NPs' impact, especially given that our platform deciphers the links between environmental and intracellular pollutions, and origin of detrimental diseases."
"This outstanding report provides a sobering look at the effects of plastic nanoparticles on human stem cells. It has been known that these particles are problematic, but this is the first report, to my knowledge, to provide mechanistic, detailed data on how polystyrene nanoplastics affect human iPSCs and embryonic cells," said Jan Nolta, Editor-in-Chief of STEM CELLS. "This platform will be very useful for future studies evaluating the negative effects of different types of plastic nanoparticle contaminants."
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The full article, "Platform to study intracellular polystyrene nanoplastic pollution and clinical outcomes," can be accessed at https://stemcellsjournals.onlinelibrary.wiley.com/doi/abs/10.1002/stem.3244.
About the Journal: STEM CELLS, a peer reviewed journal published monthly, provides a forum for prompt publication of original investigative papers and concise reviews. The journal covers all aspects of stem cells: embryonic stem cells/induced pluripotent stem cells; tissue-specific stem cells; cancer stem cells; the stem cell niche; stem cell epigenetics, genomics and proteomics; and translational and clinical research. STEM CELLS is co-published by AlphaMed Press and Wiley.
About AlphaMed Press: Established in 1983, AlphaMed Press with offices in Durham, NC, San Francisco, CA, and Belfast, Northern Ireland, publishes three internationally renowned peer-reviewed journals with globally recognized editorial boards dedicated to advancing knowledge and education in their focused disciplines. STEM CELLS® is the world's first journal devoted to this fast paced field of research. THE ONCOLOGIST® is devoted to community and hospital-based oncologists and physicians entrusted with cancer patient care. STEM CELLS TRANSLATIONAL MEDICINE® is dedicated to significantly advancing the clinical utilization of stem cell molecular and cellular biology. By bridging stem cell research and clinical trials, SCTM will help move applications of these critical investigations closer to accepted best practices.

Grassroots dog vaccinations can help stop rabies, but not alone

Rabies is preventable. Inequality has kept it a threat.
FIELD MUSEUM
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IMAGE: VETERINARIANS (JOSEPH NYAGUCHA, LEFT, AND PATRICK MUINDE, RIGHT) VACCINATING A PUPPY AGAINST RABIES IN KENYA'S LAIKIPIA COUNTY. view more 
CREDIT: © RAVI RUPAREL.In the US, dying from rabies is virtually unheard of. But around the world, rabies kills 59,000 people every year. Ninety-nine percent of those deaths are caused by dog bites; half of the people killed are children. There's a relatively simple way of preventing these deaths--vaccinating dogs against the disease--but systemic challenges make that easier said than done. In a new study in PLOS Neglected Tropical Diseases, an international team of researchers reported on a multi-year effort to vaccinate dogs in Kenya and highlighted some of the challenges scientists and public health officials face in eradicating the disease. They found that grassroots efforts helped lots of individuals--but that to stop the disease once and for all, these smaller campaigns must be coupled with large-scale efforts.
"It's important to focus on rabies because it's 100% preventable," says Adam Ferguson, a mammalogist at Chicago's Field Museum and one of the study's lead authors. "There's no reason why people should be dying from rabies. It's not like COVID in the sense that we don't have a vaccine for it or we don't know what to do with it."
Rabies is a virus, and it spreads through saliva in animal bites. It causes brain inflammation, and once a person begins showing symptoms, it's nearly always fatal. Any mammal can carry rabies, but humans are most likely to pick it up from dogs, because we spend more time in close contact with them than with wild animals like raccoons and bats. And while a rabies vaccine was first discovered in 1885, large parts of the world remain vulnerable to the disease to this day. "It disproportionately impacts low-income, rural communities," says Ferguson, who began the project as a National Science Foundation postdoctoral fellow at Kenya's Karatina University. "In the US, we have the luxury that if one person dies of rabies a year, it makes the front page news. In Kenya, an estimated 2,000 people die of the disease every year."
For the new study, Ferguson and his colleagues conducted grassroots dog vaccination campaigns in 2015, 2016, and 2017 in Kenya's Laikipia County. The Laikipia Rabies Vaccination Campaign expanded over the course of the three-year period, and 13,155 dogs were vaccinated. Across different communities, the team set up a central station for people to bring their dogs to get vaccines. "The excitement and commitments by the communities to bring their dogs in the centers was overwhelming. This for sure made the effort feel worth investing into. You could tell that rabies eradication was tending to be more communal than an individual effort," says Dedan Ngatia, a scientist at the University of Wyoming and one of the study's lead authors.
For rural areas, team members used a combination of central stations and door-to-door vaccinations, asking people if they had dogs and offering free rabies vaccines. "We found that in the pastoral communities, you definitely need more door-to-door outreach than you do in the other communities," says Ferguson, partly because of how sparsely populated those areas are, and partly because many of the dogs there are working animals used to herd goats and sheep and wouldn't be used to walking on a leash to go to one of the central vaccination stations.
As the project grew, more and more people were interested in getting their dogs vaccinated. But the project's popularity presented the researchers with a tough decision. They could focus on smaller areas where they could try to get 70% of the dogs vaccinated, the amount needed for risk of dogs spreading the disease to humans to be effectively eliminated. Alternatively, they could vaccinate as many dogs from as many places as possible, without reaching a critical mass of vaccinations necessary for herd immunity. They didn't have the resources to get to 70% immunity on the large scale.
"I think the question grassroots campaigns have to ask themselves is, is that their goal just to have local outreach and help a few individuals, or are they trying to eliminate it at the landscape-level scale, which is the bigger picture goal. I think, going forward, the answer should be, you should have both," says Ferguson. "We need massive, large-scale efforts, but the reality is that money and resources are limited. That's where these grassroots campaigns are helpful. We were able to expand from 5 to 17 communities because we partnered with the national and county government from the get-go."
"Our target of vaccinating more than 70% of dogs in Laikipia County through sustained campaigns will interrupt transmission in the reservoir population so that the disease is eliminated. LRVC does more than just vaccinating dogs against rabies, we visit schools to raise awareness amongst children--the most affected population by the disease--about rabies prevention," says Dishon Muloi, a scientist at International Livestock Research Institute and one of the study's lead authors.
"The need to eradicate rabies is both for the protection of people as well as wildlife, which includes some of the most endangered carnivores like the African wild dogs. For many years, infectious diseases have remained the main cause of endangerment for these species, with rabies playing a leading role in the endangerment of the African wild dogs. With massive vaccinations, and achieving 70% coverage, we will be able to protect both people and wildlife," says Ngatia.
This study was contributed to by scientists from the Field Museum, the Smithsonian Conservation Biology Institute, the University of Edinburgh, the International Livestock Research Institute, Karatina University, Maasai Mara University, the Kenya Agricultural and Livestock Research Organization, the Kenya Zoonotic Disease Unit, Washington State University, the Zoological Society of London, the Ministry of Agriculture, Livestock, and Fisheries, County Government of Laikipia, the University of Liverpool, and the Mpala Research Centre.
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Climate change threat to tropical plants

UNIVERSITY OF NEW SOUTH WALES
Tropical plants closer to the equator are most at risk from climate change because it is expected to become too hot for many species to germinate in the next 50 years, UNSW researchers have found.
Their study analysed almost 10,000 records for more than 1300 species from the Kew Gardens' global seed germination database.
The research, published in the journal Global Ecology and Biogeography recently, was the first to look at the big picture impact of climate change on such a large number of plant species worldwide.
Lead author Alex Sentinella, UNSW PhD researcher, said past research had found that animal species closer to the equator would be more at risk from climate change.
"The thought was that because tropical species come from a stable climate where it's always warm, they can only cope with a narrow range of temperatures - whereas species from higher latitudes can cope with a larger range of temperatures because they come from places where the weather varies widely," Mr Sentinella said.
"However, this idea had never been tested for plants.
"Because climate change is a huge issue globally, we wanted to understand these patterns on a global scale and build upon the many studies on plants at an individual level in their environment."
Seeds a key indicator of survival
The researchers examined seed germination data from the Millennium Seed Bank Partnership Data Warehouse, hosted by Kew Royal Botanic Gardens in London, to quantify global patterns in germination temperature.
They analysed 9737 records for 1312 plant species from every continent except Antarctica and excluded agricultural crops.
Mr Sentinella said they chose seed data because it was widely available and relevant to the ability of a species to cope with different temperatures.
"With seeds, you can experiment on them quickly, there are a lot of studies about them and importantly, germination directly relates to how a species will survive, because if the seed doesn't germinate the plant won't live," he said.
"So, we collated the data from the Kew Gardens database, examined all experiments on the same species from the same locations, and then determined the range of temperatures each species could tolerate in order to survive."
The researchers also examined climate data for the same locations as the plant species used in the study.
They looked at current temperature - the average temperature of the warmest three months from 1970 to 2000 - and predicted temperature for 2070.
The researchers then compared the temperatures the plants were experiencing now with the forecasted 2070 temperatures.
Tropical plants to hit or exceed temperature limits
The study discovered tropical plants do not have narrower temperature tolerances but were more at risk from global warming, because it would bring them close to their maximum seed germination temperatures.
Mr Sentinella said, on average, the closer a plant was to the equator, the more at risk it would be of exceeding its temperature ceiling by 2070.
"These plants could be more at risk because they are near their upper limits. So, even a small increase in temperature from climate change could push them over the edge," he said.
"The figures are quite shocking because by 2070, more than 20 per cent of tropical plant species, we predict, will face temperatures above their upper limit, which means they won't germinate, and so can't survive."
Mr Sentinella said the researchers also found that more than half of tropical species are expected to experience temperatures exceeding their optimum germination temperatures.
"That's even worse because if those plants can survive it would be at a reduced rate of germination and therefore, they might not be as successful," he said.
"If a seed's germination rate is 100 per cent at its optimum temperature, then it might only manage 50 or 60 per cent, for example, if the temperature is higher than what's ideal."
Mr Sentinella said he was surprised to find that climate change would threaten so many tropical species.
"But our most unexpected discovery was that the hypothesis often used for animals - that those near the equator would struggle to survive the impact of climate change because they have narrower temperature tolerances - was not true for plants," he said.
"We found that regardless of latitude, plant species can germinate at roughly the same breadth of temperatures, which does not align with the animal studies."
The researchers also found 95 per cent of plant species at latitudes above 45 degrees are predicted to benefit from warming, because environmental temperatures are expected to shift closer to the species' optimal germination temperatures.
Findings to help target conservation efforts
Mr Sentinella said it was possible for some plants to slowly evolve to increasing temperatures, but it was difficult to predict which ones would survive.
"The problem with the quick change in temperatures forecasted, is that some species won't be able to adapt fast enough," he said.
"Sometimes plants can migrate by starting to grow further away from the equator or, up a mountain slope where it's cooler. But if a species can't do that it will become extinct.
"There are almost 400,000 plant species worldwide - so, we would expect a number of them to fail to germinate between now and 2070."
Mr Sentinella hopes the researchers' findings will help to conserve plant species under threat from climate change.
"Ideally, we would be able to conserve all ecosystems, but the funding is simply not there. So, our findings could help conservation efforts target resources towards areas which are more vulnerable," he said.
"We also hope our findings further strengthen the global body of research about the risks of climate change.
"Humans have known about dangers of climate change for decades and we already have the answers to tackle it. So, hopefully our study will help encourage people and policy makers to take action now."
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Read the study in Global Ecology and Biogeographyhttps://doi.org/10.1111/geb.13117

Mothering in domestic violence: Protecting children behind closed doors

UNIVERSITY OF SOUTH AUSTRALIA
As emerging data shows an alarming rise of domestic violence during the pandemic, researchers at the University of South Australia are urging practitioners to look beyond clinical observations and focus on the strengths that mothers exercise to protect their children from domestic abuse.
The call follows UniSA research that upends the perception that abused women are unable to adequately protect their children, instead revealing the ways that women think and act to shield their children from abuse, often at the expense of their own personal safety.
In the past 12 months, more than 243 million women and girls (aged 15-49) across the globe, were subjected to sexual or physical violence by an intimate partner. In Australia, one in six (or 1.6 million women) have experienced physical or sexual violence with 80 per cent experiencing coercive control by a current or previous partner since the age of 15. More than a quarter of the women said that children in their care had witnessed this violence and abuse.
Lead researcher and experienced social worker, UniSA's Dr Fiona Buchanan, says practitioners need to recognise mothers' protective behaviour if they are to work towards increasing safety for women and children living in abusive environments.
"Far too often, women are perceived as passive victims of domestic abuse, who while enduring unconscionable abuse, are unable to protect their own children," Dr Buchanan says.
"But what many practitioners don't realise is that these women are protecting their children in many unseen ways, that hope to reduce the likelihood of an abusive partner lashing out.
"The mothers in our research talked about the things they did to avoid conflict with their partners, things like controlling the home environment - making sure dinner was ready and on the table; ensuring the children were clean and quiet; and by making sure the house was neat and tidy.
"By trying to pre-empt abuse, they sought to limit their partner's aggressive outbursts, effectively managing his mood and behaviour to safeguard their children's wellbeing."
The study also showed that mothers intentionally tried to 'keep the peace' by purposely avoiding conflict with aggressive partners.
"Protective behaviours could span anything from keeping the children out of harm's way when they thought an assault was likely to occur, to putting themselves physically close to their abuser to try and placate him," Dr Buchanan says.
"In this instance, despite wanting to put distance between them and their violent partner, they placed themselves closer to the danger, arguably increasing risk to themselves in order to reduce the risk to the children."
Using interviews and focus groups UniSA's Dr Buchanan and Professor Nicole Moulding explored the lived experiences of 16 women who had mothered children in domestic abuse, hoping to better understand their thoughts, feelings and actions during that time. Each of the women had left their abusive partner at least one year prior to participating in the study.
Dr Buchanan warns that practitioners who rely on attachment theory (the observed emotional bonds between children and caregivers) in child protection practice are at risk of overlooking invisible acts of protective agency.
"Despite the popularity of attachment theory in child protection, it does not offer much guidance about supporting women and children living in abusive home environments, especially as it categorises the child-mother relationship without context," Dr Buchanan says.
"Clinical observation downplays the protective role of mothers in abusive relationships and promotes a notion of 'bad mothering'.
"There is no evidence to assume that abused women are worse mothers.
"Instead of identifying deficits and assigning blame, practitioners should seek to understand the invisible behaviours that women engage in behind closed doors to protect their children from abuse.
"A strengths-based approach is essential if we are to move towards more positive and empowered practices of safety and protection.
"Sadly, we cannot remove women and children from these terrible scenarios without taking a good look at the society which tolerates domestic abuse and blames women for being victimized."
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NOTES FOR EDITORS - Other Domestic Abuse Statistics:
  • On average one woman a week is murdered by her current or former partner
  • One in four women have experienced emotional abuse by a current or former partner since the age of 15
  • 80 per cent of women in domestic abuse situations experience coercive control
  • One in five women have experienced sexual violence since the age of 15
  • 85 per cent of Australian women have been sexually harassed
  • Almost 40 per cent of women continue to experience violence from a partner while temporarily separated
  • One in six women have experienced stalking since the age of 15
  • Domestic and family violence is the leading cause of homelessness for women and their children.
  • Indigenous women are 32 times more likely to be hospitalised due to family violence than non-indigenous women.
  • Violence against women and children is estimated to cost the Australian economy $22 billion a year.

Rising water temperatures could endanger the mating of many fish species

ALFRED WEGENER INSTITUTE, HELMHOLTZ CENTRE FOR POLAR AND MARINE RESEARCH

Because fish that are ready to mate and their young are especially sensitive to changes in temperature, in the future up to 60 percent of all species may be forced to leave their traditional spawning areas
In a new meta-study, experts from the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI) have published ground-breaking findings on the effects of climate change for fish stock around the globe. As they report, the risks for fish are much higher than previously assumed, especially given the fact that in certain developmental stages they are especially sensitive to rising water temperatures. One critical bottleneck in the lifecycle of fish is their low tolerance for heat during mating. In other words, the water temperature in their spawning areas determines to a great extent how successfully they reproduce, making fish particularly vulnerable to the impacts of climate change - not only in the ocean, but also in lakes, ponds and rivers. According to the researchers' analyses, if left unchecked, climate change and rising water temperatures will negatively affect the reproduction of up to 60 percent of all fish species. Their study was released today in the latest issue of the journal Science.
Organisms have to breathe in order for their bodies to produce energy; this is equally true for human beings and for fish. In addition, we know that the energy needs of humans and animals alike depend on the temperature: when it's warmer, the need for energy rises exponentially, and with it, the need for oxygen. On this basis, it follows that organisms can only adapt to rising temperatures in their immediate vicinity by providing their bodies with more oxygen. But there are certain species-specific limits on this ability; if those limits are exceeded, it can lead to cardiovascular collapse.
Armed with this knowledge, in a new meta-study, experts from the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI) have investigated in which life phases saltwater and freshwater fish around the world are most sensitive to heat. To do so, the biologists compiled scientific data on the temperature tolerance of 694 fish species and analysed the temperature ranges within which fish can survive as adults ready to mate, as embryos in eggs, as larvae, and as adults outside the mating season.

Most sensitive during the mating season

"Our findings show that, both as embryos in eggs and as adults ready to mate, fish are far more sensitive to heat than in their larval stage or sexually mature adults outside the mating season," says first author and AWI marine biologist Dr Flemming Dahlke. "On the global average, for example, adults outside the mating season can survive in water that's up to 10 degrees Celsius warmer than adults ready to mate or fish eggs can."
The reason for this variable temperature tolerance lies in the anatomy of fish: fish embryos have no gills that would allow them to take in more oxygen. In contrast, fish that are ready to mate produce egg and sperm cells; this additional body mass also needs to be supplied with oxygen, which is why, even at lower temperatures, their cardiovascular systems are under enormous strain.

Every degree of warming increases the pressure on fish stocks

These findings apply to all fish species, and make it clear why fish are sensitive to heat, especially during the mating season and in their embryonic stage. Accordingly, in a second step the team of researchers analysed to what extent water temperatures in the spawning areas of the species investigated would likely rise due to climate change. For this purpose, they employed new climate scenarios (Shared Socioeconomic Pathways - SSPs), which will also be used in the IPCC's next Assessment Report.
Their conclusions confirm that every degree Celsius of warming spells more trouble for the world's fish stocks. "If we human beings can successfully limit climate warming to 1.5 degrees Celsius by the year 2100, only ten percent of the fish species we investigated will be forced to leave their traditional spawning areas due to rising temperatures," explains AWI biologist and co-author Prof Hans-Otto Pörtner. In contrast, if greenhouse-gas emissions remain at a high or very high level (SSP 5 - 8.5), it's likely to produce average warming of 5 degrees Celsius or more, which would endanger up to 60 percent of all fish species.

Limited options for adapting

Those species affected would then be forced to either adapt through biological evolution - a process that would most likely take far too long - or to mate at another time of year or in some other place. "Some species might successfully manage this change," says Flemming Dahlke. "But if you consider the fact that fish have adapted their mating patterns to specific habitats over extremely long timeframes, and have tailored their mating cycles to specific ocean currents and available food sources, it has to be assumed that being forced to abandon their normal spawning areas will mean major problems for them." In addition, fish living in rivers and lakes have the problem that their habitat is limited by the size and geographic location of the waters they live in: migrating to deeper waters or to cooler regions is nearly impossible.

New level of detail for improved projections

"Our detailed analyses, which cover all of the fishes' developmental stages, will help us to understand how these species are being affected by climate change, and to what extent the loss of suitable habitats is being driven by the climate-related transformation of ecosystems," says Hans-Otto Pörtner.
Wherever fish migrate or their reproduction rates decline, there will be new interactions between species, and in some cases the ecosystems will experience a drop in productivity. The IPCC published corresponding projections on the future of worldwide fish stocks in its Special Report on the Ocean and Cryosphere in a Changing Climate. According to Pörtner: "Our new detailed assessments will help to improve those projections."

Spawning fish and embryos most vulnerable to climate's warming waters

AMERICAN ASSOCIATION FOR THE ADVANCEMENT OF SCIENCE
Spawning fish and embryos are far more vulnerable to Earth's warming waters than fish in other life stages, according to a new study, which uniquely relates fish physiological tolerance to temperature across the lifecycles of nearly 700 fish species. The results reveal a critical bottleneck in the lifecycle of fish and suggest that many ecologically and economically important fish species are threatened by climate warming more than studies based on adult fish thermal tolerance alone have shown. Understanding an organism's physiological limits to temperature changes can provide a window into how some species will likely respond to Earth's changing climate. However, thermal tolerances often vary throughout an organism's life. Thus, the vulnerability of a species to climate change hinges on its most temperature-sensitive life stages. But due to a lack of experimental data, large-scale climate risk assessments often simplify or fail to account for the effects of these thermal bottlenecks across the entire lifecycle of many major animal groups, including fish. Whether our current climate mitigation targets are sufficient enough to sustain healthy fish populations remains poorly understood. Flemming Dahlke and colleagues compiled published observational and experimental data to assess the life stage-specific thermal tolerances for 694 marine and freshwater fish from waters worldwide. Their large-scale meta-analysis found that spawning adults and embryos were much more susceptible to temperature changes than other life stages across fish species. Dahlke et al.'s findings suggest that, with unchecked warming, up to 60% of the fish species they evaluated will not be able to exist in the current geographic range of their most vulnerable life stages within a century - a sharp contrast to the 10% of species estimated if using only the thermal tolerance of adults. "The minute thermal safety margins of spawning fish and embryos in the tropics suggest that there are limited fish species on Earth that can tolerate warmer or less oxygenated habitats. Intensified efforts to stabilize global warming are warranted more than ever," writes Jennifer Sunday in a related Perspective.

Higher concentration of metal in Moon's craters provides new insights to its origin

New observations could challenge previous theories of how the Moon was formed
UNIVERSITY OF SOUTHERN CALIFORNIA


IMAGE
IMAGE: VIEW OF MOON LIMB, WITH EARTH ON THE HORIZON view more 
CREDIT: NASA APOLLO 11 MISSION IMAGE

Life on Earth would not be possible without the Moon; it keeps our planet's axis of rotation stable, which controls seasons and regulates our climate. However, there has been considerable debate over how the Moon was formed. The popular hypothesis contends that the Moon was formed by a Mars-sized body colliding with Earth's upper crust which is poor in metals. But new research suggests the Moon's subsurface is more metal-rich than previously thought, providing new insights that could challenge our understanding of that process.
Today, a study published in Earth and Planetary Science Letters sheds new light on the composition of the dust found at the bottom of the Moon's craters. Led by Essam Heggy, research scientist of electrical and computer engineering at the USC Viterbi School of Engineering, and co-investigator of the Mini-RF instrument onboard NASA Lunar Reconnaissance Orbiter (LRO), the team members of the Miniature Radio Frequency (Mini-RF) instrument on the Lunar Reconnaissance Orbiter (LRO) mission used radar to image and characterize this fine dust. The researchers concluded that the Moon's subsurface may be richer in metals (i.e. Fe and Ti oxides) than scientists had believed.
According to the researchers, the fine dust at the bottom of the Moon's craters is actually ejected materials forced up from below the Moon's surface during meteor impacts. When comparing the metal content at the bottom of larger and deeper craters to that of the smaller and shallower ones, the team found higher metal concentrations in the deeper craters.
What does a change in recorded metal presence in the subsurface have to do with our understanding of the Moon? The traditional hypothesis is that approximately 4.5 billion years ago there was a collision between Earth and a Mars-sized proto-planet (named Theia). Most scientists believe that that collision shot a large portion of Earth's metal-poor upper crust into orbit, eventually forming the Moon.
One puzzling aspect of this theory of the Moon's formation, has been that the Moon has a higher concentration of iron oxides than the Earth--a fact well-known to scientists. This particular research contributes to the field in that it provides insights about a section of the moon that has not been frequently studied and posits that there may exist an even higher concentration of metal deeper below the surface. It is possible, say the researchers that the discrepancy between the amount of iron on the Earth's crust and the Moon could be even greater than scientists thought, which pulls into question the current understanding of how the Moon was formed.
The fact that our Moon could be richer in metals than the Earth challenges the notion that it was portions of Earth's mantle and crust that were shot into orbit. A greater concentration of metal deposits may mean that other hypotheses about the Moon's formation must be explored. It may be possible that the collision with Theia was more devastating to our early Earth, with much deeper sections being launched into orbit, or that the collision could have occurred when Earth was still young and covered by a magma ocean. Alternatively, more metal could hint at a complicated cool-down of an early molten Moon surface, as suggested by several scientists.
According to Heggy, "By improving our understanding of how much metal the Moon's subsurface actually has, scientists can constrain the ambiguities about how it has formed, how it is evolving and how it is contributing to maintaining habitability on Earth." He further added, "Our solar system alone has over 200 moons - understanding the crucial role these moons play in the formation and evolution of the planets they orbit can give us deeper insights into how and where life conditions outside Earth might form and what it might look like."
Wes Patterson of the Planetary Exploration Group (SRE), Space Exploration Sector (SES) at Johns Hopkins University Applied Physics Laboratory, who is the project's principal investigator for Mini-RF and a co-author of the study, added, "The LRO mission and its radar imager Mini-RF are continuing to surprise us with new insights into the origins and complexity of our nearest neighbor."
The team plans to continue carrying out additional radar observations of more crater floors with the Mini-RF experiment to verify the initial findings of the published investigation.
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This research project was funded through the University of Southern California under NASA award NNX15AV76G.



Radar points to moon being more metallic than researchers thought

NASA/GODDARD SPACE FLIGHT CENTER
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IMAGE: THIS IMAGE BASED ON DATA FROM NASA'S LUNAR RECONNAISSANCE ORBITER SPACECRAFT SHOWS THE FACE OF THE MOON WE SEE FROM EARTH. THE MORE WE LEARN ABOUT OUR NEAREST NEIGHBOR, THE... view more 
CREDIT: NASA / GSFC / ARIZONA STATE UNIVERSITYWhat started out as a hunt for ice lurking in polar lunar craters turned into an unexpected finding that could help clear some muddy history about the Moon's formation.
Team members of the Miniature Radio Frequency (Mini-RF) instrument on NASA's Lunar Reconnaissance Orbiter (LRO) spacecraft found new evidence that the Moon's subsurface might be richer in metals, like iron and titanium, than researchers thought. That finding, published July 1 in Earth and Planetary Science Letters, could aid in drawing a clearer connection between Earth and the Moon.
"The LRO mission and its radar instrument continue to surprise us with new insights about the origins and complexity of our nearest neighbor," said Wes Patterson, Mini-RF principal investigator from the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, and a study coauthor.
Substantial evidence points to the Moon as the product of a collision between a Mars-sized protoplanet and young Earth, forming from the gravitational collapse of the remaining cloud of debris. Consequently, the Moon's bulk chemical composition closely resembles that of Earth.
Look in detail at the Moon's chemical composition, however, and that story turns murky. For example, in the bright plains of the Moon's surface, called the lunar highlands, rocks contain smaller amounts of metal-bearing minerals relative to Earth. That finding might be explained if Earth had fully differentiated into a core, mantle and crust before the impact, leaving the Moon largely metal-poor. But turn to the Moon's maria -- the large, darker plains -- and the metal abundance becomes richer than that of many rocks on Earth.
This discrepancy has puzzled scientists, leading to numerous questions and hypotheses regarding how much the impacting protoplanet may have contributed to the differences. The Mini-RF team found a curious pattern that could lead to an answer.
Using Mini-RF, the researchers sought to measure an electrical property within lunar soil piled on crater floors in the Moon's northern hemisphere. This electrical property is known as the dielectric constant, a number that compares the relative abilities of a material and the vacuum of space to transmit electric fields, and could help locate ice lurking in the crater shadows. The team, however, noticed this property increasing with crater size.
For craters approximately 1 to 3 miles (2 to 5 kilometers) wide, the dielectric constant of the material steadily increased as the craters grew larger, but for craters 3 to 12 miles (5 to 20 kilometers) wide, the property remained constant.
"It was a surprising relationship that we had no reason to believe would exist," said Essam Heggy, coinvestigator of the Mini-RF experiments from the University of Southern California in Los Angeles and lead author of the published paper.
Discovery of this pattern opened a door to a new possibility. Because meteors that form larger craters also dig deeper into the Moon's subsurface, the team reasoned that the increasing dielectric constant of the dust in larger craters could be the result of meteors excavating iron and titanium oxides that lie below the surface. Dielectric properties are directly linked to the concentration of these metal minerals.
If their hypothesis were true, it would mean only the first few hundred meters of the Moon's surface is scant in iron and titanium oxides, but below the surface, there's a steady increase to a rich and unexpected bonanza.
Comparing crater floor radar images from Mini-RF with metal oxide maps from the LRO Wide-Angle Camera, Japan's Kaguya mission and NASA's Lunar Prospector spacecraft, the team found exactly what it had suspected. The larger craters, with their increased dielectric material, were also richer in metals, suggesting that more iron and titanium oxides had been excavated from the depths of 0.3 to 1 mile (0.5 to 2 kilometers) than from the upper 0.1 to 0.3 miles (0.2 to 0.5 kilometers) of the lunar subsurface.
"This exciting result from Mini-RF shows that even after 11 years in operation at the Moon, we are still making new discoveries about the ancient history of our nearest neighbor," said Noah Petro, the LRO project scientist at NASA's Goddard Space Flight Center in Greenbelt, Maryland. "The MINI-RF data is incredibly valuable for telling us about the properties of the lunar surface, but we use that data to infer what was happening over 4.5 billion years ago!"
These results follow recent evidence from NASA's Gravity Recovery and Interior Laboratory (GRAIL) mission that suggests a significant mass of dense material exists just a few tens to hundreds of kilometers beneath the Moon's enormous South Pole-Aitken basin, indicating that dense materials aren't uniformly distributed in the Moon's subsurface.
The team emphasizes that the new study can't directly answer the outstanding questions about the Moon's formation, but it does reduce the uncertainty in the distribution of iron and titanium oxides in the lunar subsurface and provide critical evidence needed to better understand the Moon's formation and its connection to Earth.
"It really raises the question of what this means for our previous formation hypotheses," Heggy said.
Anxious to uncover more, the researchers have already started examining crater floors in the Moon's southern hemisphere to see if the same trends exist there.
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LRO is managed by NASA's Goddard Space Flight Center in Greenbelt, Maryland for the Science Mission Directorate at NASA Headquarters in Washington. Mini-RF was designed, built and tested by a team led by APL, Naval Air Warfare Center, Sandia National Laboratories, Raytheon and Northrop Grumman.
For more information on LRO, visit:
Written by: Jeremy Rehm, jeremy.rehm@jhuapl.edu

Feeds of the future

University of Göttingen research team investigates the influence of insect and microalgae feeds on meat quality
UNIVERSITY OF GÖTTINGEN
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IMAGE: RESEARCHERS AT THE UNIVERSITY OF GÖTTINGEN HAVE FOUND THAT THE MEAT QUALITY OF CHICKENS FED WITH CERTAIN INSECTS OR MICROALGAE IS SUITABLE FOR HUMAN CONSUMPTION. view more 
CREDIT: QUALITY OF ANIMAL PRODUCTS, UNIVERSITY OF GÖTTINGEN
Worldwide there is a growing demand for animal products for human nutrition, despite vegan and vegetarian diets becoming more popular in Western countries. Changing diets necessitate a substantial amount of protein as an input for animal production. Future protein feedstuffs will need to become independent of arable land in order to avoid further land use changes, such as deforestation. The cultivation of insects as well as microalgae are up-and-coming sectors in Germany, as well as globally, to meet protein demands for humans and animals alike. Therefore, a research team at the University of Göttingen investigated whether these alternative protein sources alter typical meat quality. Their results have been published in the Journal of the Science of Food and Agriculture (JSFA).
In a study conducted as a part of the project "Sustainability Transitions in the Food Production", broiler chickens were fattened using feed with the main protein sources being soybean meal, spirulina, or insects. Animal growth, meat quality (especially concerning shelf life), and eating quality were investigated. Their results of laboratory testing and sensory (taste-testing) analyses across 132 birds show that black soldier fly larvae meal and spirulina can be included in poultry feed without negatively impacting quality. Chickens fed with black soldier fly larvae meal produce meat equivalent to the status quo. Chickens fed with spirulina produce meat with a more intensive colour and flavour. "Overall, both prove to be potential soybean meal alternatives in the search for new protein sources for animal feed," as explained by the study lead researcher Dr Brianne Altmann.
Microalgae are currently produced globally for biofuel, animal feed, and human consumption; however, they remain much more expensive than soybean meal. Currently in the European Union (EU), insects are only authorized for human consumption and for fish feed; they are likely to be approved for poultry feed in the near future. In the EU, all insects must be produced using certified animal feedstuffs. However, "sustainability necessitates the incorporation of waste products in the production of insects," explains Professor Daniel Mörlein, professor for the Quality of Animal Products.
Three groups at the Faculty of Agricultural Sciences, University of Göttingen, are currently examining the foundations for more sustainable and socially-accepted plant and animal-based foods. Product perception as well as consumer acceptance studies are commonly conducted in the faculty's modern sensory laboratory.
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Original publication: Brianne A. Altmann, Ruth Wigger, Marco Ciulu, Daniel Mörlein: The effect of insect or microalga alternative protein feeds on broiler meat quality. (Journal of the Science of Food and Agriculture, open access). http://dx.doi.org/10.1002/jsfa.10473
Contact:
Dr Brianne Altmann
University of Göttingen
Faculty of Agricultural Sciences, Department of Animal Sciences
Quality of Animal Products
Albrecht-Thaer-Weg 3, 37075 Göttingen, Germany
Tel: +49 (0)551 39-5611
Email: brianne.altmann@agr.uni-goettingen.de
http://www.uni-goettingen.de/en/86980.htmll
Professor Daniel Mörlein
daniel.moerlein@uni-goettingen.de